/*! markdown-it 13.0.1 https://github.com/markdown-it/markdown-it @license MIT */
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  })(this, (function() {
    "use strict";
    function createCommonjsModule(fn, basedir, module) {
      return module = {
        path: basedir,
        exports: {},
        require: function(path, base) {
          return commonjsRequire(path, base === undefined || base === null ? module.path : base);
        }
      }, fn(module, module.exports), module.exports;
    }
    function getAugmentedNamespace(n) {
      if (n.__esModule) return n;
      var a = Object.defineProperty({}, "__esModule", {
        value: true
      });
      Object.keys(n).forEach((function(k) {
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          enumerable: true,
          get: function() {
            return n[k];
          }
        });
      }));
      return a;
    }
    function commonjsRequire() {
      throw new Error("Dynamic requires are not currently supported by @rollup/plugin-commonjs");
    }
    var require$$0 = {
      Aacute: "\xc1",
      aacute: "\xe1",
      Abreve: "\u0102",
      abreve: "\u0103",
      ac: "\u223e",
      acd: "\u223f",
      acE: "\u223e\u0333",
      Acirc: "\xc2",
      acirc: "\xe2",
      acute: "\xb4",
      Acy: "\u0410",
      acy: "\u0430",
      AElig: "\xc6",
      aelig: "\xe6",
      af: "\u2061",
      Afr: "\ud835\udd04",
      afr: "\ud835\udd1e",
      Agrave: "\xc0",
      agrave: "\xe0",
      alefsym: "\u2135",
      aleph: "\u2135",
      Alpha: "\u0391",
      alpha: "\u03b1",
      Amacr: "\u0100",
      amacr: "\u0101",
      amalg: "\u2a3f",
      amp: "&",
      AMP: "&",
      andand: "\u2a55",
      And: "\u2a53",
      and: "\u2227",
      andd: "\u2a5c",
      andslope: "\u2a58",
      andv: "\u2a5a",
      ang: "\u2220",
      ange: "\u29a4",
      angle: "\u2220",
      angmsdaa: "\u29a8",
      angmsdab: "\u29a9",
      angmsdac: "\u29aa",
      angmsdad: "\u29ab",
      angmsdae: "\u29ac",
      angmsdaf: "\u29ad",
      angmsdag: "\u29ae",
      angmsdah: "\u29af",
      angmsd: "\u2221",
      angrt: "\u221f",
      angrtvb: "\u22be",
      angrtvbd: "\u299d",
      angsph: "\u2222",
      angst: "\xc5",
      angzarr: "\u237c",
      Aogon: "\u0104",
      aogon: "\u0105",
      Aopf: "\ud835\udd38",
      aopf: "\ud835\udd52",
      apacir: "\u2a6f",
      ap: "\u2248",
      apE: "\u2a70",
      ape: "\u224a",
      apid: "\u224b",
      apos: "'",
      ApplyFunction: "\u2061",
      approx: "\u2248",
      approxeq: "\u224a",
      Aring: "\xc5",
      aring: "\xe5",
      Ascr: "\ud835\udc9c",
      ascr: "\ud835\udcb6",
      Assign: "\u2254",
      ast: "*",
      asymp: "\u2248",
      asympeq: "\u224d",
      Atilde: "\xc3",
      atilde: "\xe3",
      Auml: "\xc4",
      auml: "\xe4",
      awconint: "\u2233",
      awint: "\u2a11",
      backcong: "\u224c",
      backepsilon: "\u03f6",
      backprime: "\u2035",
      backsim: "\u223d",
      backsimeq: "\u22cd",
      Backslash: "\u2216",
      Barv: "\u2ae7",
      barvee: "\u22bd",
      barwed: "\u2305",
      Barwed: "\u2306",
      barwedge: "\u2305",
      bbrk: "\u23b5",
      bbrktbrk: "\u23b6",
      bcong: "\u224c",
      Bcy: "\u0411",
      bcy: "\u0431",
      bdquo: "\u201e",
      becaus: "\u2235",
      because: "\u2235",
      Because: "\u2235",
      bemptyv: "\u29b0",
      bepsi: "\u03f6",
      bernou: "\u212c",
      Bernoullis: "\u212c",
      Beta: "\u0392",
      beta: "\u03b2",
      beth: "\u2136",
      between: "\u226c",
      Bfr: "\ud835\udd05",
      bfr: "\ud835\udd1f",
      bigcap: "\u22c2",
      bigcirc: "\u25ef",
      bigcup: "\u22c3",
      bigodot: "\u2a00",
      bigoplus: "\u2a01",
      bigotimes: "\u2a02",
      bigsqcup: "\u2a06",
      bigstar: "\u2605",
      bigtriangledown: "\u25bd",
      bigtriangleup: "\u25b3",
      biguplus: "\u2a04",
      bigvee: "\u22c1",
      bigwedge: "\u22c0",
      bkarow: "\u290d",
      blacklozenge: "\u29eb",
      blacksquare: "\u25aa",
      blacktriangle: "\u25b4",
      blacktriangledown: "\u25be",
      blacktriangleleft: "\u25c2",
      blacktriangleright: "\u25b8",
      blank: "\u2423",
      blk12: "\u2592",
      blk14: "\u2591",
      blk34: "\u2593",
      block: "\u2588",
      bne: "=\u20e5",
      bnequiv: "\u2261\u20e5",
      bNot: "\u2aed",
      bnot: "\u2310",
      Bopf: "\ud835\udd39",
      bopf: "\ud835\udd53",
      bot: "\u22a5",
      bottom: "\u22a5",
      bowtie: "\u22c8",
      boxbox: "\u29c9",
      boxdl: "\u2510",
      boxdL: "\u2555",
      boxDl: "\u2556",
      boxDL: "\u2557",
      boxdr: "\u250c",
      boxdR: "\u2552",
      boxDr: "\u2553",
      boxDR: "\u2554",
      boxh: "\u2500",
      boxH: "\u2550",
      boxhd: "\u252c",
      boxHd: "\u2564",
      boxhD: "\u2565",
      boxHD: "\u2566",
      boxhu: "\u2534",
      boxHu: "\u2567",
      boxhU: "\u2568",
      boxHU: "\u2569",
      boxminus: "\u229f",
      boxplus: "\u229e",
      boxtimes: "\u22a0",
      boxul: "\u2518",
      boxuL: "\u255b",
      boxUl: "\u255c",
      boxUL: "\u255d",
      boxur: "\u2514",
      boxuR: "\u2558",
      boxUr: "\u2559",
      boxUR: "\u255a",
      boxv: "\u2502",
      boxV: "\u2551",
      boxvh: "\u253c",
      boxvH: "\u256a",
      boxVh: "\u256b",
      boxVH: "\u256c",
      boxvl: "\u2524",
      boxvL: "\u2561",
      boxVl: "\u2562",
      boxVL: "\u2563",
      boxvr: "\u251c",
      boxvR: "\u255e",
      boxVr: "\u255f",
      boxVR: "\u2560",
      bprime: "\u2035",
      breve: "\u02d8",
      Breve: "\u02d8",
      brvbar: "\xa6",
      bscr: "\ud835\udcb7",
      Bscr: "\u212c",
      bsemi: "\u204f",
      bsim: "\u223d",
      bsime: "\u22cd",
      bsolb: "\u29c5",
      bsol: "\\",
      bsolhsub: "\u27c8",
      bull: "\u2022",
      bullet: "\u2022",
      bump: "\u224e",
      bumpE: "\u2aae",
      bumpe: "\u224f",
      Bumpeq: "\u224e",
      bumpeq: "\u224f",
      Cacute: "\u0106",
      cacute: "\u0107",
      capand: "\u2a44",
      capbrcup: "\u2a49",
      capcap: "\u2a4b",
      cap: "\u2229",
      Cap: "\u22d2",
      capcup: "\u2a47",
      capdot: "\u2a40",
      CapitalDifferentialD: "\u2145",
      caps: "\u2229\ufe00",
      caret: "\u2041",
      caron: "\u02c7",
      Cayleys: "\u212d",
      ccaps: "\u2a4d",
      Ccaron: "\u010c",
      ccaron: "\u010d",
      Ccedil: "\xc7",
      ccedil: "\xe7",
      Ccirc: "\u0108",
      ccirc: "\u0109",
      Cconint: "\u2230",
      ccups: "\u2a4c",
      ccupssm: "\u2a50",
      Cdot: "\u010a",
      cdot: "\u010b",
      cedil: "\xb8",
      Cedilla: "\xb8",
      cemptyv: "\u29b2",
      cent: "\xa2",
      centerdot: "\xb7",
      CenterDot: "\xb7",
      cfr: "\ud835\udd20",
      Cfr: "\u212d",
      CHcy: "\u0427",
      chcy: "\u0447",
      check: "\u2713",
      checkmark: "\u2713",
      Chi: "\u03a7",
      chi: "\u03c7",
      circ: "\u02c6",
      circeq: "\u2257",
      circlearrowleft: "\u21ba",
      circlearrowright: "\u21bb",
      circledast: "\u229b",
      circledcirc: "\u229a",
      circleddash: "\u229d",
      CircleDot: "\u2299",
      circledR: "\xae",
      circledS: "\u24c8",
      CircleMinus: "\u2296",
      CirclePlus: "\u2295",
      CircleTimes: "\u2297",
      cir: "\u25cb",
      cirE: "\u29c3",
      cire: "\u2257",
      cirfnint: "\u2a10",
      cirmid: "\u2aef",
      cirscir: "\u29c2",
      ClockwiseContourIntegral: "\u2232",
      CloseCurlyDoubleQuote: "\u201d",
      CloseCurlyQuote: "\u2019",
      clubs: "\u2663",
      clubsuit: "\u2663",
      colon: ":",
      Colon: "\u2237",
      Colone: "\u2a74",
      colone: "\u2254",
      coloneq: "\u2254",
      comma: ",",
      commat: "@",
      comp: "\u2201",
      compfn: "\u2218",
      complement: "\u2201",
      complexes: "\u2102",
      cong: "\u2245",
      congdot: "\u2a6d",
      Congruent: "\u2261",
      conint: "\u222e",
      Conint: "\u222f",
      ContourIntegral: "\u222e",
      copf: "\ud835\udd54",
      Copf: "\u2102",
      coprod: "\u2210",
      Coproduct: "\u2210",
      copy: "\xa9",
      COPY: "\xa9",
      copysr: "\u2117",
      CounterClockwiseContourIntegral: "\u2233",
      crarr: "\u21b5",
      cross: "\u2717",
      Cross: "\u2a2f",
      Cscr: "\ud835\udc9e",
      cscr: "\ud835\udcb8",
      csub: "\u2acf",
      csube: "\u2ad1",
      csup: "\u2ad0",
      csupe: "\u2ad2",
      ctdot: "\u22ef",
      cudarrl: "\u2938",
      cudarrr: "\u2935",
      cuepr: "\u22de",
      cuesc: "\u22df",
      cularr: "\u21b6",
      cularrp: "\u293d",
      cupbrcap: "\u2a48",
      cupcap: "\u2a46",
      CupCap: "\u224d",
      cup: "\u222a",
      Cup: "\u22d3",
      cupcup: "\u2a4a",
      cupdot: "\u228d",
      cupor: "\u2a45",
      cups: "\u222a\ufe00",
      curarr: "\u21b7",
      curarrm: "\u293c",
      curlyeqprec: "\u22de",
      curlyeqsucc: "\u22df",
      curlyvee: "\u22ce",
      curlywedge: "\u22cf",
      curren: "\xa4",
      curvearrowleft: "\u21b6",
      curvearrowright: "\u21b7",
      cuvee: "\u22ce",
      cuwed: "\u22cf",
      cwconint: "\u2232",
      cwint: "\u2231",
      cylcty: "\u232d",
      dagger: "\u2020",
      Dagger: "\u2021",
      daleth: "\u2138",
      darr: "\u2193",
      Darr: "\u21a1",
      dArr: "\u21d3",
      dash: "\u2010",
      Dashv: "\u2ae4",
      dashv: "\u22a3",
      dbkarow: "\u290f",
      dblac: "\u02dd",
      Dcaron: "\u010e",
      dcaron: "\u010f",
      Dcy: "\u0414",
      dcy: "\u0434",
      ddagger: "\u2021",
      ddarr: "\u21ca",
      DD: "\u2145",
      dd: "\u2146",
      DDotrahd: "\u2911",
      ddotseq: "\u2a77",
      deg: "\xb0",
      Del: "\u2207",
      Delta: "\u0394",
      delta: "\u03b4",
      demptyv: "\u29b1",
      dfisht: "\u297f",
      Dfr: "\ud835\udd07",
      dfr: "\ud835\udd21",
      dHar: "\u2965",
      dharl: "\u21c3",
      dharr: "\u21c2",
      DiacriticalAcute: "\xb4",
      DiacriticalDot: "\u02d9",
      DiacriticalDoubleAcute: "\u02dd",
      DiacriticalGrave: "`",
      DiacriticalTilde: "\u02dc",
      diam: "\u22c4",
      diamond: "\u22c4",
      Diamond: "\u22c4",
      diamondsuit: "\u2666",
      diams: "\u2666",
      die: "\xa8",
      DifferentialD: "\u2146",
      digamma: "\u03dd",
      disin: "\u22f2",
      div: "\xf7",
      divide: "\xf7",
      divideontimes: "\u22c7",
      divonx: "\u22c7",
      DJcy: "\u0402",
      djcy: "\u0452",
      dlcorn: "\u231e",
      dlcrop: "\u230d",
      dollar: "$",
      Dopf: "\ud835\udd3b",
      dopf: "\ud835\udd55",
      Dot: "\xa8",
      dot: "\u02d9",
      DotDot: "\u20dc",
      doteq: "\u2250",
      doteqdot: "\u2251",
      DotEqual: "\u2250",
      dotminus: "\u2238",
      dotplus: "\u2214",
      dotsquare: "\u22a1",
      doublebarwedge: "\u2306",
      DoubleContourIntegral: "\u222f",
      DoubleDot: "\xa8",
      DoubleDownArrow: "\u21d3",
      DoubleLeftArrow: "\u21d0",
      DoubleLeftRightArrow: "\u21d4",
      DoubleLeftTee: "\u2ae4",
      DoubleLongLeftArrow: "\u27f8",
      DoubleLongLeftRightArrow: "\u27fa",
      DoubleLongRightArrow: "\u27f9",
      DoubleRightArrow: "\u21d2",
      DoubleRightTee: "\u22a8",
      DoubleUpArrow: "\u21d1",
      DoubleUpDownArrow: "\u21d5",
      DoubleVerticalBar: "\u2225",
      DownArrowBar: "\u2913",
      downarrow: "\u2193",
      DownArrow: "\u2193",
      Downarrow: "\u21d3",
      DownArrowUpArrow: "\u21f5",
      DownBreve: "\u0311",
      downdownarrows: "\u21ca",
      downharpoonleft: "\u21c3",
      downharpoonright: "\u21c2",
      DownLeftRightVector: "\u2950",
      DownLeftTeeVector: "\u295e",
      DownLeftVectorBar: "\u2956",
      DownLeftVector: "\u21bd",
      DownRightTeeVector: "\u295f",
      DownRightVectorBar: "\u2957",
      DownRightVector: "\u21c1",
      DownTeeArrow: "\u21a7",
      DownTee: "\u22a4",
      drbkarow: "\u2910",
      drcorn: "\u231f",
      drcrop: "\u230c",
      Dscr: "\ud835\udc9f",
      dscr: "\ud835\udcb9",
      DScy: "\u0405",
      dscy: "\u0455",
      dsol: "\u29f6",
      Dstrok: "\u0110",
      dstrok: "\u0111",
      dtdot: "\u22f1",
      dtri: "\u25bf",
      dtrif: "\u25be",
      duarr: "\u21f5",
      duhar: "\u296f",
      dwangle: "\u29a6",
      DZcy: "\u040f",
      dzcy: "\u045f",
      dzigrarr: "\u27ff",
      Eacute: "\xc9",
      eacute: "\xe9",
      easter: "\u2a6e",
      Ecaron: "\u011a",
      ecaron: "\u011b",
      Ecirc: "\xca",
      ecirc: "\xea",
      ecir: "\u2256",
      ecolon: "\u2255",
      Ecy: "\u042d",
      ecy: "\u044d",
      eDDot: "\u2a77",
      Edot: "\u0116",
      edot: "\u0117",
      eDot: "\u2251",
      ee: "\u2147",
      efDot: "\u2252",
      Efr: "\ud835\udd08",
      efr: "\ud835\udd22",
      eg: "\u2a9a",
      Egrave: "\xc8",
      egrave: "\xe8",
      egs: "\u2a96",
      egsdot: "\u2a98",
      el: "\u2a99",
      Element: "\u2208",
      elinters: "\u23e7",
      ell: "\u2113",
      els: "\u2a95",
      elsdot: "\u2a97",
      Emacr: "\u0112",
      emacr: "\u0113",
      empty: "\u2205",
      emptyset: "\u2205",
      EmptySmallSquare: "\u25fb",
      emptyv: "\u2205",
      EmptyVerySmallSquare: "\u25ab",
      emsp13: "\u2004",
      emsp14: "\u2005",
      emsp: "\u2003",
      ENG: "\u014a",
      eng: "\u014b",
      ensp: "\u2002",
      Eogon: "\u0118",
      eogon: "\u0119",
      Eopf: "\ud835\udd3c",
      eopf: "\ud835\udd56",
      epar: "\u22d5",
      eparsl: "\u29e3",
      eplus: "\u2a71",
      epsi: "\u03b5",
      Epsilon: "\u0395",
      epsilon: "\u03b5",
      epsiv: "\u03f5",
      eqcirc: "\u2256",
      eqcolon: "\u2255",
      eqsim: "\u2242",
      eqslantgtr: "\u2a96",
      eqslantless: "\u2a95",
      Equal: "\u2a75",
      equals: "=",
      EqualTilde: "\u2242",
      equest: "\u225f",
      Equilibrium: "\u21cc",
      equiv: "\u2261",
      equivDD: "\u2a78",
      eqvparsl: "\u29e5",
      erarr: "\u2971",
      erDot: "\u2253",
      escr: "\u212f",
      Escr: "\u2130",
      esdot: "\u2250",
      Esim: "\u2a73",
      esim: "\u2242",
      Eta: "\u0397",
      eta: "\u03b7",
      ETH: "\xd0",
      eth: "\xf0",
      Euml: "\xcb",
      euml: "\xeb",
      euro: "\u20ac",
      excl: "!",
      exist: "\u2203",
      Exists: "\u2203",
      expectation: "\u2130",
      exponentiale: "\u2147",
      ExponentialE: "\u2147",
      fallingdotseq: "\u2252",
      Fcy: "\u0424",
      fcy: "\u0444",
      female: "\u2640",
      ffilig: "\ufb03",
      fflig: "\ufb00",
      ffllig: "\ufb04",
      Ffr: "\ud835\udd09",
      ffr: "\ud835\udd23",
      filig: "\ufb01",
      FilledSmallSquare: "\u25fc",
      FilledVerySmallSquare: "\u25aa",
      fjlig: "fj",
      flat: "\u266d",
      fllig: "\ufb02",
      fltns: "\u25b1",
      fnof: "\u0192",
      Fopf: "\ud835\udd3d",
      fopf: "\ud835\udd57",
      forall: "\u2200",
      ForAll: "\u2200",
      fork: "\u22d4",
      forkv: "\u2ad9",
      Fouriertrf: "\u2131",
      fpartint: "\u2a0d",
      frac12: "\xbd",
      frac13: "\u2153",
      frac14: "\xbc",
      frac15: "\u2155",
      frac16: "\u2159",
      frac18: "\u215b",
      frac23: "\u2154",
      frac25: "\u2156",
      frac34: "\xbe",
      frac35: "\u2157",
      frac38: "\u215c",
      frac45: "\u2158",
      frac56: "\u215a",
      frac58: "\u215d",
      frac78: "\u215e",
      frasl: "\u2044",
      frown: "\u2322",
      fscr: "\ud835\udcbb",
      Fscr: "\u2131",
      gacute: "\u01f5",
      Gamma: "\u0393",
      gamma: "\u03b3",
      Gammad: "\u03dc",
      gammad: "\u03dd",
      gap: "\u2a86",
      Gbreve: "\u011e",
      gbreve: "\u011f",
      Gcedil: "\u0122",
      Gcirc: "\u011c",
      gcirc: "\u011d",
      Gcy: "\u0413",
      gcy: "\u0433",
      Gdot: "\u0120",
      gdot: "\u0121",
      ge: "\u2265",
      gE: "\u2267",
      gEl: "\u2a8c",
      gel: "\u22db",
      geq: "\u2265",
      geqq: "\u2267",
      geqslant: "\u2a7e",
      gescc: "\u2aa9",
      ges: "\u2a7e",
      gesdot: "\u2a80",
      gesdoto: "\u2a82",
      gesdotol: "\u2a84",
      gesl: "\u22db\ufe00",
      gesles: "\u2a94",
      Gfr: "\ud835\udd0a",
      gfr: "\ud835\udd24",
      gg: "\u226b",
      Gg: "\u22d9",
      ggg: "\u22d9",
      gimel: "\u2137",
      GJcy: "\u0403",
      gjcy: "\u0453",
      gla: "\u2aa5",
      gl: "\u2277",
      glE: "\u2a92",
      glj: "\u2aa4",
      gnap: "\u2a8a",
      gnapprox: "\u2a8a",
      gne: "\u2a88",
      gnE: "\u2269",
      gneq: "\u2a88",
      gneqq: "\u2269",
      gnsim: "\u22e7",
      Gopf: "\ud835\udd3e",
      gopf: "\ud835\udd58",
      grave: "`",
      GreaterEqual: "\u2265",
      GreaterEqualLess: "\u22db",
      GreaterFullEqual: "\u2267",
      GreaterGreater: "\u2aa2",
      GreaterLess: "\u2277",
      GreaterSlantEqual: "\u2a7e",
      GreaterTilde: "\u2273",
      Gscr: "\ud835\udca2",
      gscr: "\u210a",
      gsim: "\u2273",
      gsime: "\u2a8e",
      gsiml: "\u2a90",
      gtcc: "\u2aa7",
      gtcir: "\u2a7a",
      gt: ">",
      GT: ">",
      Gt: "\u226b",
      gtdot: "\u22d7",
      gtlPar: "\u2995",
      gtquest: "\u2a7c",
      gtrapprox: "\u2a86",
      gtrarr: "\u2978",
      gtrdot: "\u22d7",
      gtreqless: "\u22db",
      gtreqqless: "\u2a8c",
      gtrless: "\u2277",
      gtrsim: "\u2273",
      gvertneqq: "\u2269\ufe00",
      gvnE: "\u2269\ufe00",
      Hacek: "\u02c7",
      hairsp: "\u200a",
      half: "\xbd",
      hamilt: "\u210b",
      HARDcy: "\u042a",
      hardcy: "\u044a",
      harrcir: "\u2948",
      harr: "\u2194",
      hArr: "\u21d4",
      harrw: "\u21ad",
      Hat: "^",
      hbar: "\u210f",
      Hcirc: "\u0124",
      hcirc: "\u0125",
      hearts: "\u2665",
      heartsuit: "\u2665",
      hellip: "\u2026",
      hercon: "\u22b9",
      hfr: "\ud835\udd25",
      Hfr: "\u210c",
      HilbertSpace: "\u210b",
      hksearow: "\u2925",
      hkswarow: "\u2926",
      hoarr: "\u21ff",
      homtht: "\u223b",
      hookleftarrow: "\u21a9",
      hookrightarrow: "\u21aa",
      hopf: "\ud835\udd59",
      Hopf: "\u210d",
      horbar: "\u2015",
      HorizontalLine: "\u2500",
      hscr: "\ud835\udcbd",
      Hscr: "\u210b",
      hslash: "\u210f",
      Hstrok: "\u0126",
      hstrok: "\u0127",
      HumpDownHump: "\u224e",
      HumpEqual: "\u224f",
      hybull: "\u2043",
      hyphen: "\u2010",
      Iacute: "\xcd",
      iacute: "\xed",
      ic: "\u2063",
      Icirc: "\xce",
      icirc: "\xee",
      Icy: "\u0418",
      icy: "\u0438",
      Idot: "\u0130",
      IEcy: "\u0415",
      iecy: "\u0435",
      iexcl: "\xa1",
      iff: "\u21d4",
      ifr: "\ud835\udd26",
      Ifr: "\u2111",
      Igrave: "\xcc",
      igrave: "\xec",
      ii: "\u2148",
      iiiint: "\u2a0c",
      iiint: "\u222d",
      iinfin: "\u29dc",
      iiota: "\u2129",
      IJlig: "\u0132",
      ijlig: "\u0133",
      Imacr: "\u012a",
      imacr: "\u012b",
      image: "\u2111",
      ImaginaryI: "\u2148",
      imagline: "\u2110",
      imagpart: "\u2111",
      imath: "\u0131",
      Im: "\u2111",
      imof: "\u22b7",
      imped: "\u01b5",
      Implies: "\u21d2",
      incare: "\u2105",
      in: "\u2208",
      infin: "\u221e",
      infintie: "\u29dd",
      inodot: "\u0131",
      intcal: "\u22ba",
      int: "\u222b",
      Int: "\u222c",
      integers: "\u2124",
      Integral: "\u222b",
      intercal: "\u22ba",
      Intersection: "\u22c2",
      intlarhk: "\u2a17",
      intprod: "\u2a3c",
      InvisibleComma: "\u2063",
      InvisibleTimes: "\u2062",
      IOcy: "\u0401",
      iocy: "\u0451",
      Iogon: "\u012e",
      iogon: "\u012f",
      Iopf: "\ud835\udd40",
      iopf: "\ud835\udd5a",
      Iota: "\u0399",
      iota: "\u03b9",
      iprod: "\u2a3c",
      iquest: "\xbf",
      iscr: "\ud835\udcbe",
      Iscr: "\u2110",
      isin: "\u2208",
      isindot: "\u22f5",
      isinE: "\u22f9",
      isins: "\u22f4",
      isinsv: "\u22f3",
      isinv: "\u2208",
      it: "\u2062",
      Itilde: "\u0128",
      itilde: "\u0129",
      Iukcy: "\u0406",
      iukcy: "\u0456",
      Iuml: "\xcf",
      iuml: "\xef",
      Jcirc: "\u0134",
      jcirc: "\u0135",
      Jcy: "\u0419",
      jcy: "\u0439",
      Jfr: "\ud835\udd0d",
      jfr: "\ud835\udd27",
      jmath: "\u0237",
      Jopf: "\ud835\udd41",
      jopf: "\ud835\udd5b",
      Jscr: "\ud835\udca5",
      jscr: "\ud835\udcbf",
      Jsercy: "\u0408",
      jsercy: "\u0458",
      Jukcy: "\u0404",
      jukcy: "\u0454",
      Kappa: "\u039a",
      kappa: "\u03ba",
      kappav: "\u03f0",
      Kcedil: "\u0136",
      kcedil: "\u0137",
      Kcy: "\u041a",
      kcy: "\u043a",
      Kfr: "\ud835\udd0e",
      kfr: "\ud835\udd28",
      kgreen: "\u0138",
      KHcy: "\u0425",
      khcy: "\u0445",
      KJcy: "\u040c",
      kjcy: "\u045c",
      Kopf: "\ud835\udd42",
      kopf: "\ud835\udd5c",
      Kscr: "\ud835\udca6",
      kscr: "\ud835\udcc0",
      lAarr: "\u21da",
      Lacute: "\u0139",
      lacute: "\u013a",
      laemptyv: "\u29b4",
      lagran: "\u2112",
      Lambda: "\u039b",
      lambda: "\u03bb",
      lang: "\u27e8",
      Lang: "\u27ea",
      langd: "\u2991",
      langle: "\u27e8",
      lap: "\u2a85",
      Laplacetrf: "\u2112",
      laquo: "\xab",
      larrb: "\u21e4",
      larrbfs: "\u291f",
      larr: "\u2190",
      Larr: "\u219e",
      lArr: "\u21d0",
      larrfs: "\u291d",
      larrhk: "\u21a9",
      larrlp: "\u21ab",
      larrpl: "\u2939",
      larrsim: "\u2973",
      larrtl: "\u21a2",
      latail: "\u2919",
      lAtail: "\u291b",
      lat: "\u2aab",
      late: "\u2aad",
      lates: "\u2aad\ufe00",
      lbarr: "\u290c",
      lBarr: "\u290e",
      lbbrk: "\u2772",
      lbrace: "{",
      lbrack: "[",
      lbrke: "\u298b",
      lbrksld: "\u298f",
      lbrkslu: "\u298d",
      Lcaron: "\u013d",
      lcaron: "\u013e",
      Lcedil: "\u013b",
      lcedil: "\u013c",
      lceil: "\u2308",
      lcub: "{",
      Lcy: "\u041b",
      lcy: "\u043b",
      ldca: "\u2936",
      ldquo: "\u201c",
      ldquor: "\u201e",
      ldrdhar: "\u2967",
      ldrushar: "\u294b",
      ldsh: "\u21b2",
      le: "\u2264",
      lE: "\u2266",
      LeftAngleBracket: "\u27e8",
      LeftArrowBar: "\u21e4",
      leftarrow: "\u2190",
      LeftArrow: "\u2190",
      Leftarrow: "\u21d0",
      LeftArrowRightArrow: "\u21c6",
      leftarrowtail: "\u21a2",
      LeftCeiling: "\u2308",
      LeftDoubleBracket: "\u27e6",
      LeftDownTeeVector: "\u2961",
      LeftDownVectorBar: "\u2959",
      LeftDownVector: "\u21c3",
      LeftFloor: "\u230a",
      leftharpoondown: "\u21bd",
      leftharpoonup: "\u21bc",
      leftleftarrows: "\u21c7",
      leftrightarrow: "\u2194",
      LeftRightArrow: "\u2194",
      Leftrightarrow: "\u21d4",
      leftrightarrows: "\u21c6",
      leftrightharpoons: "\u21cb",
      leftrightsquigarrow: "\u21ad",
      LeftRightVector: "\u294e",
      LeftTeeArrow: "\u21a4",
      LeftTee: "\u22a3",
      LeftTeeVector: "\u295a",
      leftthreetimes: "\u22cb",
      LeftTriangleBar: "\u29cf",
      LeftTriangle: "\u22b2",
      LeftTriangleEqual: "\u22b4",
      LeftUpDownVector: "\u2951",
      LeftUpTeeVector: "\u2960",
      LeftUpVectorBar: "\u2958",
      LeftUpVector: "\u21bf",
      LeftVectorBar: "\u2952",
      LeftVector: "\u21bc",
      lEg: "\u2a8b",
      leg: "\u22da",
      leq: "\u2264",
      leqq: "\u2266",
      leqslant: "\u2a7d",
      lescc: "\u2aa8",
      les: "\u2a7d",
      lesdot: "\u2a7f",
      lesdoto: "\u2a81",
      lesdotor: "\u2a83",
      lesg: "\u22da\ufe00",
      lesges: "\u2a93",
      lessapprox: "\u2a85",
      lessdot: "\u22d6",
      lesseqgtr: "\u22da",
      lesseqqgtr: "\u2a8b",
      LessEqualGreater: "\u22da",
      LessFullEqual: "\u2266",
      LessGreater: "\u2276",
      lessgtr: "\u2276",
      LessLess: "\u2aa1",
      lesssim: "\u2272",
      LessSlantEqual: "\u2a7d",
      LessTilde: "\u2272",
      lfisht: "\u297c",
      lfloor: "\u230a",
      Lfr: "\ud835\udd0f",
      lfr: "\ud835\udd29",
      lg: "\u2276",
      lgE: "\u2a91",
      lHar: "\u2962",
      lhard: "\u21bd",
      lharu: "\u21bc",
      lharul: "\u296a",
      lhblk: "\u2584",
      LJcy: "\u0409",
      ljcy: "\u0459",
      llarr: "\u21c7",
      ll: "\u226a",
      Ll: "\u22d8",
      llcorner: "\u231e",
      Lleftarrow: "\u21da",
      llhard: "\u296b",
      lltri: "\u25fa",
      Lmidot: "\u013f",
      lmidot: "\u0140",
      lmoustache: "\u23b0",
      lmoust: "\u23b0",
      lnap: "\u2a89",
      lnapprox: "\u2a89",
      lne: "\u2a87",
      lnE: "\u2268",
      lneq: "\u2a87",
      lneqq: "\u2268",
      lnsim: "\u22e6",
      loang: "\u27ec",
      loarr: "\u21fd",
      lobrk: "\u27e6",
      longleftarrow: "\u27f5",
      LongLeftArrow: "\u27f5",
      Longleftarrow: "\u27f8",
      longleftrightarrow: "\u27f7",
      LongLeftRightArrow: "\u27f7",
      Longleftrightarrow: "\u27fa",
      longmapsto: "\u27fc",
      longrightarrow: "\u27f6",
      LongRightArrow: "\u27f6",
      Longrightarrow: "\u27f9",
      looparrowleft: "\u21ab",
      looparrowright: "\u21ac",
      lopar: "\u2985",
      Lopf: "\ud835\udd43",
      lopf: "\ud835\udd5d",
      loplus: "\u2a2d",
      lotimes: "\u2a34",
      lowast: "\u2217",
      lowbar: "_",
      LowerLeftArrow: "\u2199",
      LowerRightArrow: "\u2198",
      loz: "\u25ca",
      lozenge: "\u25ca",
      lozf: "\u29eb",
      lpar: "(",
      lparlt: "\u2993",
      lrarr: "\u21c6",
      lrcorner: "\u231f",
      lrhar: "\u21cb",
      lrhard: "\u296d",
      lrm: "\u200e",
      lrtri: "\u22bf",
      lsaquo: "\u2039",
      lscr: "\ud835\udcc1",
      Lscr: "\u2112",
      lsh: "\u21b0",
      Lsh: "\u21b0",
      lsim: "\u2272",
      lsime: "\u2a8d",
      lsimg: "\u2a8f",
      lsqb: "[",
      lsquo: "\u2018",
      lsquor: "\u201a",
      Lstrok: "\u0141",
      lstrok: "\u0142",
      ltcc: "\u2aa6",
      ltcir: "\u2a79",
      lt: "<",
      LT: "<",
      Lt: "\u226a",
      ltdot: "\u22d6",
      lthree: "\u22cb",
      ltimes: "\u22c9",
      ltlarr: "\u2976",
      ltquest: "\u2a7b",
      ltri: "\u25c3",
      ltrie: "\u22b4",
      ltrif: "\u25c2",
      ltrPar: "\u2996",
      lurdshar: "\u294a",
      luruhar: "\u2966",
      lvertneqq: "\u2268\ufe00",
      lvnE: "\u2268\ufe00",
      macr: "\xaf",
      male: "\u2642",
      malt: "\u2720",
      maltese: "\u2720",
      Map: "\u2905",
      map: "\u21a6",
      mapsto: "\u21a6",
      mapstodown: "\u21a7",
      mapstoleft: "\u21a4",
      mapstoup: "\u21a5",
      marker: "\u25ae",
      mcomma: "\u2a29",
      Mcy: "\u041c",
      mcy: "\u043c",
      mdash: "\u2014",
      mDDot: "\u223a",
      measuredangle: "\u2221",
      MediumSpace: "\u205f",
      Mellintrf: "\u2133",
      Mfr: "\ud835\udd10",
      mfr: "\ud835\udd2a",
      mho: "\u2127",
      micro: "\xb5",
      midast: "*",
      midcir: "\u2af0",
      mid: "\u2223",
      middot: "\xb7",
      minusb: "\u229f",
      minus: "\u2212",
      minusd: "\u2238",
      minusdu: "\u2a2a",
      MinusPlus: "\u2213",
      mlcp: "\u2adb",
      mldr: "\u2026",
      mnplus: "\u2213",
      models: "\u22a7",
      Mopf: "\ud835\udd44",
      mopf: "\ud835\udd5e",
      mp: "\u2213",
      mscr: "\ud835\udcc2",
      Mscr: "\u2133",
      mstpos: "\u223e",
      Mu: "\u039c",
      mu: "\u03bc",
      multimap: "\u22b8",
      mumap: "\u22b8",
      nabla: "\u2207",
      Nacute: "\u0143",
      nacute: "\u0144",
      nang: "\u2220\u20d2",
      nap: "\u2249",
      napE: "\u2a70\u0338",
      napid: "\u224b\u0338",
      napos: "\u0149",
      napprox: "\u2249",
      natural: "\u266e",
      naturals: "\u2115",
      natur: "\u266e",
      nbsp: "\xa0",
      nbump: "\u224e\u0338",
      nbumpe: "\u224f\u0338",
      ncap: "\u2a43",
      Ncaron: "\u0147",
      ncaron: "\u0148",
      Ncedil: "\u0145",
      ncedil: "\u0146",
      ncong: "\u2247",
      ncongdot: "\u2a6d\u0338",
      ncup: "\u2a42",
      Ncy: "\u041d",
      ncy: "\u043d",
      ndash: "\u2013",
      nearhk: "\u2924",
      nearr: "\u2197",
      neArr: "\u21d7",
      nearrow: "\u2197",
      ne: "\u2260",
      nedot: "\u2250\u0338",
      NegativeMediumSpace: "\u200b",
      NegativeThickSpace: "\u200b",
      NegativeThinSpace: "\u200b",
      NegativeVeryThinSpace: "\u200b",
      nequiv: "\u2262",
      nesear: "\u2928",
      nesim: "\u2242\u0338",
      NestedGreaterGreater: "\u226b",
      NestedLessLess: "\u226a",
      NewLine: "\n",
      nexist: "\u2204",
      nexists: "\u2204",
      Nfr: "\ud835\udd11",
      nfr: "\ud835\udd2b",
      ngE: "\u2267\u0338",
      nge: "\u2271",
      ngeq: "\u2271",
      ngeqq: "\u2267\u0338",
      ngeqslant: "\u2a7e\u0338",
      nges: "\u2a7e\u0338",
      nGg: "\u22d9\u0338",
      ngsim: "\u2275",
      nGt: "\u226b\u20d2",
      ngt: "\u226f",
      ngtr: "\u226f",
      nGtv: "\u226b\u0338",
      nharr: "\u21ae",
      nhArr: "\u21ce",
      nhpar: "\u2af2",
      ni: "\u220b",
      nis: "\u22fc",
      nisd: "\u22fa",
      niv: "\u220b",
      NJcy: "\u040a",
      njcy: "\u045a",
      nlarr: "\u219a",
      nlArr: "\u21cd",
      nldr: "\u2025",
      nlE: "\u2266\u0338",
      nle: "\u2270",
      nleftarrow: "\u219a",
      nLeftarrow: "\u21cd",
      nleftrightarrow: "\u21ae",
      nLeftrightarrow: "\u21ce",
      nleq: "\u2270",
      nleqq: "\u2266\u0338",
      nleqslant: "\u2a7d\u0338",
      nles: "\u2a7d\u0338",
      nless: "\u226e",
      nLl: "\u22d8\u0338",
      nlsim: "\u2274",
      nLt: "\u226a\u20d2",
      nlt: "\u226e",
      nltri: "\u22ea",
      nltrie: "\u22ec",
      nLtv: "\u226a\u0338",
      nmid: "\u2224",
      NoBreak: "\u2060",
      NonBreakingSpace: "\xa0",
      nopf: "\ud835\udd5f",
      Nopf: "\u2115",
      Not: "\u2aec",
      not: "\xac",
      NotCongruent: "\u2262",
      NotCupCap: "\u226d",
      NotDoubleVerticalBar: "\u2226",
      NotElement: "\u2209",
      NotEqual: "\u2260",
      NotEqualTilde: "\u2242\u0338",
      NotExists: "\u2204",
      NotGreater: "\u226f",
      NotGreaterEqual: "\u2271",
      NotGreaterFullEqual: "\u2267\u0338",
      NotGreaterGreater: "\u226b\u0338",
      NotGreaterLess: "\u2279",
      NotGreaterSlantEqual: "\u2a7e\u0338",
      NotGreaterTilde: "\u2275",
      NotHumpDownHump: "\u224e\u0338",
      NotHumpEqual: "\u224f\u0338",
      notin: "\u2209",
      notindot: "\u22f5\u0338",
      notinE: "\u22f9\u0338",
      notinva: "\u2209",
      notinvb: "\u22f7",
      notinvc: "\u22f6",
      NotLeftTriangleBar: "\u29cf\u0338",
      NotLeftTriangle: "\u22ea",
      NotLeftTriangleEqual: "\u22ec",
      NotLess: "\u226e",
      NotLessEqual: "\u2270",
      NotLessGreater: "\u2278",
      NotLessLess: "\u226a\u0338",
      NotLessSlantEqual: "\u2a7d\u0338",
      NotLessTilde: "\u2274",
      NotNestedGreaterGreater: "\u2aa2\u0338",
      NotNestedLessLess: "\u2aa1\u0338",
      notni: "\u220c",
      notniva: "\u220c",
      notnivb: "\u22fe",
      notnivc: "\u22fd",
      NotPrecedes: "\u2280",
      NotPrecedesEqual: "\u2aaf\u0338",
      NotPrecedesSlantEqual: "\u22e0",
      NotReverseElement: "\u220c",
      NotRightTriangleBar: "\u29d0\u0338",
      NotRightTriangle: "\u22eb",
      NotRightTriangleEqual: "\u22ed",
      NotSquareSubset: "\u228f\u0338",
      NotSquareSubsetEqual: "\u22e2",
      NotSquareSuperset: "\u2290\u0338",
      NotSquareSupersetEqual: "\u22e3",
      NotSubset: "\u2282\u20d2",
      NotSubsetEqual: "\u2288",
      NotSucceeds: "\u2281",
      NotSucceedsEqual: "\u2ab0\u0338",
      NotSucceedsSlantEqual: "\u22e1",
      NotSucceedsTilde: "\u227f\u0338",
      NotSuperset: "\u2283\u20d2",
      NotSupersetEqual: "\u2289",
      NotTilde: "\u2241",
      NotTildeEqual: "\u2244",
      NotTildeFullEqual: "\u2247",
      NotTildeTilde: "\u2249",
      NotVerticalBar: "\u2224",
      nparallel: "\u2226",
      npar: "\u2226",
      nparsl: "\u2afd\u20e5",
      npart: "\u2202\u0338",
      npolint: "\u2a14",
      npr: "\u2280",
      nprcue: "\u22e0",
      nprec: "\u2280",
      npreceq: "\u2aaf\u0338",
      npre: "\u2aaf\u0338",
      nrarrc: "\u2933\u0338",
      nrarr: "\u219b",
      nrArr: "\u21cf",
      nrarrw: "\u219d\u0338",
      nrightarrow: "\u219b",
      nRightarrow: "\u21cf",
      nrtri: "\u22eb",
      nrtrie: "\u22ed",
      nsc: "\u2281",
      nsccue: "\u22e1",
      nsce: "\u2ab0\u0338",
      Nscr: "\ud835\udca9",
      nscr: "\ud835\udcc3",
      nshortmid: "\u2224",
      nshortparallel: "\u2226",
      nsim: "\u2241",
      nsime: "\u2244",
      nsimeq: "\u2244",
      nsmid: "\u2224",
      nspar: "\u2226",
      nsqsube: "\u22e2",
      nsqsupe: "\u22e3",
      nsub: "\u2284",
      nsubE: "\u2ac5\u0338",
      nsube: "\u2288",
      nsubset: "\u2282\u20d2",
      nsubseteq: "\u2288",
      nsubseteqq: "\u2ac5\u0338",
      nsucc: "\u2281",
      nsucceq: "\u2ab0\u0338",
      nsup: "\u2285",
      nsupE: "\u2ac6\u0338",
      nsupe: "\u2289",
      nsupset: "\u2283\u20d2",
      nsupseteq: "\u2289",
      nsupseteqq: "\u2ac6\u0338",
      ntgl: "\u2279",
      Ntilde: "\xd1",
      ntilde: "\xf1",
      ntlg: "\u2278",
      ntriangleleft: "\u22ea",
      ntrianglelefteq: "\u22ec",
      ntriangleright: "\u22eb",
      ntrianglerighteq: "\u22ed",
      Nu: "\u039d",
      nu: "\u03bd",
      num: "#",
      numero: "\u2116",
      numsp: "\u2007",
      nvap: "\u224d\u20d2",
      nvdash: "\u22ac",
      nvDash: "\u22ad",
      nVdash: "\u22ae",
      nVDash: "\u22af",
      nvge: "\u2265\u20d2",
      nvgt: ">\u20d2",
      nvHarr: "\u2904",
      nvinfin: "\u29de",
      nvlArr: "\u2902",
      nvle: "\u2264\u20d2",
      nvlt: "<\u20d2",
      nvltrie: "\u22b4\u20d2",
      nvrArr: "\u2903",
      nvrtrie: "\u22b5\u20d2",
      nvsim: "\u223c\u20d2",
      nwarhk: "\u2923",
      nwarr: "\u2196",
      nwArr: "\u21d6",
      nwarrow: "\u2196",
      nwnear: "\u2927",
      Oacute: "\xd3",
      oacute: "\xf3",
      oast: "\u229b",
      Ocirc: "\xd4",
      ocirc: "\xf4",
      ocir: "\u229a",
      Ocy: "\u041e",
      ocy: "\u043e",
      odash: "\u229d",
      Odblac: "\u0150",
      odblac: "\u0151",
      odiv: "\u2a38",
      odot: "\u2299",
      odsold: "\u29bc",
      OElig: "\u0152",
      oelig: "\u0153",
      ofcir: "\u29bf",
      Ofr: "\ud835\udd12",
      ofr: "\ud835\udd2c",
      ogon: "\u02db",
      Ograve: "\xd2",
      ograve: "\xf2",
      ogt: "\u29c1",
      ohbar: "\u29b5",
      ohm: "\u03a9",
      oint: "\u222e",
      olarr: "\u21ba",
      olcir: "\u29be",
      olcross: "\u29bb",
      oline: "\u203e",
      olt: "\u29c0",
      Omacr: "\u014c",
      omacr: "\u014d",
      Omega: "\u03a9",
      omega: "\u03c9",
      Omicron: "\u039f",
      omicron: "\u03bf",
      omid: "\u29b6",
      ominus: "\u2296",
      Oopf: "\ud835\udd46",
      oopf: "\ud835\udd60",
      opar: "\u29b7",
      OpenCurlyDoubleQuote: "\u201c",
      OpenCurlyQuote: "\u2018",
      operp: "\u29b9",
      oplus: "\u2295",
      orarr: "\u21bb",
      Or: "\u2a54",
      or: "\u2228",
      ord: "\u2a5d",
      order: "\u2134",
      orderof: "\u2134",
      ordf: "\xaa",
      ordm: "\xba",
      origof: "\u22b6",
      oror: "\u2a56",
      orslope: "\u2a57",
      orv: "\u2a5b",
      oS: "\u24c8",
      Oscr: "\ud835\udcaa",
      oscr: "\u2134",
      Oslash: "\xd8",
      oslash: "\xf8",
      osol: "\u2298",
      Otilde: "\xd5",
      otilde: "\xf5",
      otimesas: "\u2a36",
      Otimes: "\u2a37",
      otimes: "\u2297",
      Ouml: "\xd6",
      ouml: "\xf6",
      ovbar: "\u233d",
      OverBar: "\u203e",
      OverBrace: "\u23de",
      OverBracket: "\u23b4",
      OverParenthesis: "\u23dc",
      para: "\xb6",
      parallel: "\u2225",
      par: "\u2225",
      parsim: "\u2af3",
      parsl: "\u2afd",
      part: "\u2202",
      PartialD: "\u2202",
      Pcy: "\u041f",
      pcy: "\u043f",
      percnt: "%",
      period: ".",
      permil: "\u2030",
      perp: "\u22a5",
      pertenk: "\u2031",
      Pfr: "\ud835\udd13",
      pfr: "\ud835\udd2d",
      Phi: "\u03a6",
      phi: "\u03c6",
      phiv: "\u03d5",
      phmmat: "\u2133",
      phone: "\u260e",
      Pi: "\u03a0",
      pi: "\u03c0",
      pitchfork: "\u22d4",
      piv: "\u03d6",
      planck: "\u210f",
      planckh: "\u210e",
      plankv: "\u210f",
      plusacir: "\u2a23",
      plusb: "\u229e",
      pluscir: "\u2a22",
      plus: "+",
      plusdo: "\u2214",
      plusdu: "\u2a25",
      pluse: "\u2a72",
      PlusMinus: "\xb1",
      plusmn: "\xb1",
      plussim: "\u2a26",
      plustwo: "\u2a27",
      pm: "\xb1",
      Poincareplane: "\u210c",
      pointint: "\u2a15",
      popf: "\ud835\udd61",
      Popf: "\u2119",
      pound: "\xa3",
      prap: "\u2ab7",
      Pr: "\u2abb",
      pr: "\u227a",
      prcue: "\u227c",
      precapprox: "\u2ab7",
      prec: "\u227a",
      preccurlyeq: "\u227c",
      Precedes: "\u227a",
      PrecedesEqual: "\u2aaf",
      PrecedesSlantEqual: "\u227c",
      PrecedesTilde: "\u227e",
      preceq: "\u2aaf",
      precnapprox: "\u2ab9",
      precneqq: "\u2ab5",
      precnsim: "\u22e8",
      pre: "\u2aaf",
      prE: "\u2ab3",
      precsim: "\u227e",
      prime: "\u2032",
      Prime: "\u2033",
      primes: "\u2119",
      prnap: "\u2ab9",
      prnE: "\u2ab5",
      prnsim: "\u22e8",
      prod: "\u220f",
      Product: "\u220f",
      profalar: "\u232e",
      profline: "\u2312",
      profsurf: "\u2313",
      prop: "\u221d",
      Proportional: "\u221d",
      Proportion: "\u2237",
      propto: "\u221d",
      prsim: "\u227e",
      prurel: "\u22b0",
      Pscr: "\ud835\udcab",
      pscr: "\ud835\udcc5",
      Psi: "\u03a8",
      psi: "\u03c8",
      puncsp: "\u2008",
      Qfr: "\ud835\udd14",
      qfr: "\ud835\udd2e",
      qint: "\u2a0c",
      qopf: "\ud835\udd62",
      Qopf: "\u211a",
      qprime: "\u2057",
      Qscr: "\ud835\udcac",
      qscr: "\ud835\udcc6",
      quaternions: "\u210d",
      quatint: "\u2a16",
      quest: "?",
      questeq: "\u225f",
      quot: '"',
      QUOT: '"',
      rAarr: "\u21db",
      race: "\u223d\u0331",
      Racute: "\u0154",
      racute: "\u0155",
      radic: "\u221a",
      raemptyv: "\u29b3",
      rang: "\u27e9",
      Rang: "\u27eb",
      rangd: "\u2992",
      range: "\u29a5",
      rangle: "\u27e9",
      raquo: "\xbb",
      rarrap: "\u2975",
      rarrb: "\u21e5",
      rarrbfs: "\u2920",
      rarrc: "\u2933",
      rarr: "\u2192",
      Rarr: "\u21a0",
      rArr: "\u21d2",
      rarrfs: "\u291e",
      rarrhk: "\u21aa",
      rarrlp: "\u21ac",
      rarrpl: "\u2945",
      rarrsim: "\u2974",
      Rarrtl: "\u2916",
      rarrtl: "\u21a3",
      rarrw: "\u219d",
      ratail: "\u291a",
      rAtail: "\u291c",
      ratio: "\u2236",
      rationals: "\u211a",
      rbarr: "\u290d",
      rBarr: "\u290f",
      RBarr: "\u2910",
      rbbrk: "\u2773",
      rbrace: "}",
      rbrack: "]",
      rbrke: "\u298c",
      rbrksld: "\u298e",
      rbrkslu: "\u2990",
      Rcaron: "\u0158",
      rcaron: "\u0159",
      Rcedil: "\u0156",
      rcedil: "\u0157",
      rceil: "\u2309",
      rcub: "}",
      Rcy: "\u0420",
      rcy: "\u0440",
      rdca: "\u2937",
      rdldhar: "\u2969",
      rdquo: "\u201d",
      rdquor: "\u201d",
      rdsh: "\u21b3",
      real: "\u211c",
      realine: "\u211b",
      realpart: "\u211c",
      reals: "\u211d",
      Re: "\u211c",
      rect: "\u25ad",
      reg: "\xae",
      REG: "\xae",
      ReverseElement: "\u220b",
      ReverseEquilibrium: "\u21cb",
      ReverseUpEquilibrium: "\u296f",
      rfisht: "\u297d",
      rfloor: "\u230b",
      rfr: "\ud835\udd2f",
      Rfr: "\u211c",
      rHar: "\u2964",
      rhard: "\u21c1",
      rharu: "\u21c0",
      rharul: "\u296c",
      Rho: "\u03a1",
      rho: "\u03c1",
      rhov: "\u03f1",
      RightAngleBracket: "\u27e9",
      RightArrowBar: "\u21e5",
      rightarrow: "\u2192",
      RightArrow: "\u2192",
      Rightarrow: "\u21d2",
      RightArrowLeftArrow: "\u21c4",
      rightarrowtail: "\u21a3",
      RightCeiling: "\u2309",
      RightDoubleBracket: "\u27e7",
      RightDownTeeVector: "\u295d",
      RightDownVectorBar: "\u2955",
      RightDownVector: "\u21c2",
      RightFloor: "\u230b",
      rightharpoondown: "\u21c1",
      rightharpoonup: "\u21c0",
      rightleftarrows: "\u21c4",
      rightleftharpoons: "\u21cc",
      rightrightarrows: "\u21c9",
      rightsquigarrow: "\u219d",
      RightTeeArrow: "\u21a6",
      RightTee: "\u22a2",
      RightTeeVector: "\u295b",
      rightthreetimes: "\u22cc",
      RightTriangleBar: "\u29d0",
      RightTriangle: "\u22b3",
      RightTriangleEqual: "\u22b5",
      RightUpDownVector: "\u294f",
      RightUpTeeVector: "\u295c",
      RightUpVectorBar: "\u2954",
      RightUpVector: "\u21be",
      RightVectorBar: "\u2953",
      RightVector: "\u21c0",
      ring: "\u02da",
      risingdotseq: "\u2253",
      rlarr: "\u21c4",
      rlhar: "\u21cc",
      rlm: "\u200f",
      rmoustache: "\u23b1",
      rmoust: "\u23b1",
      rnmid: "\u2aee",
      roang: "\u27ed",
      roarr: "\u21fe",
      robrk: "\u27e7",
      ropar: "\u2986",
      ropf: "\ud835\udd63",
      Ropf: "\u211d",
      roplus: "\u2a2e",
      rotimes: "\u2a35",
      RoundImplies: "\u2970",
      rpar: ")",
      rpargt: "\u2994",
      rppolint: "\u2a12",
      rrarr: "\u21c9",
      Rrightarrow: "\u21db",
      rsaquo: "\u203a",
      rscr: "\ud835\udcc7",
      Rscr: "\u211b",
      rsh: "\u21b1",
      Rsh: "\u21b1",
      rsqb: "]",
      rsquo: "\u2019",
      rsquor: "\u2019",
      rthree: "\u22cc",
      rtimes: "\u22ca",
      rtri: "\u25b9",
      rtrie: "\u22b5",
      rtrif: "\u25b8",
      rtriltri: "\u29ce",
      RuleDelayed: "\u29f4",
      ruluhar: "\u2968",
      rx: "\u211e",
      Sacute: "\u015a",
      sacute: "\u015b",
      sbquo: "\u201a",
      scap: "\u2ab8",
      Scaron: "\u0160",
      scaron: "\u0161",
      Sc: "\u2abc",
      sc: "\u227b",
      sccue: "\u227d",
      sce: "\u2ab0",
      scE: "\u2ab4",
      Scedil: "\u015e",
      scedil: "\u015f",
      Scirc: "\u015c",
      scirc: "\u015d",
      scnap: "\u2aba",
      scnE: "\u2ab6",
      scnsim: "\u22e9",
      scpolint: "\u2a13",
      scsim: "\u227f",
      Scy: "\u0421",
      scy: "\u0441",
      sdotb: "\u22a1",
      sdot: "\u22c5",
      sdote: "\u2a66",
      searhk: "\u2925",
      searr: "\u2198",
      seArr: "\u21d8",
      searrow: "\u2198",
      sect: "\xa7",
      semi: ";",
      seswar: "\u2929",
      setminus: "\u2216",
      setmn: "\u2216",
      sext: "\u2736",
      Sfr: "\ud835\udd16",
      sfr: "\ud835\udd30",
      sfrown: "\u2322",
      sharp: "\u266f",
      SHCHcy: "\u0429",
      shchcy: "\u0449",
      SHcy: "\u0428",
      shcy: "\u0448",
      ShortDownArrow: "\u2193",
      ShortLeftArrow: "\u2190",
      shortmid: "\u2223",
      shortparallel: "\u2225",
      ShortRightArrow: "\u2192",
      ShortUpArrow: "\u2191",
      shy: "\xad",
      Sigma: "\u03a3",
      sigma: "\u03c3",
      sigmaf: "\u03c2",
      sigmav: "\u03c2",
      sim: "\u223c",
      simdot: "\u2a6a",
      sime: "\u2243",
      simeq: "\u2243",
      simg: "\u2a9e",
      simgE: "\u2aa0",
      siml: "\u2a9d",
      simlE: "\u2a9f",
      simne: "\u2246",
      simplus: "\u2a24",
      simrarr: "\u2972",
      slarr: "\u2190",
      SmallCircle: "\u2218",
      smallsetminus: "\u2216",
      smashp: "\u2a33",
      smeparsl: "\u29e4",
      smid: "\u2223",
      smile: "\u2323",
      smt: "\u2aaa",
      smte: "\u2aac",
      smtes: "\u2aac\ufe00",
      SOFTcy: "\u042c",
      softcy: "\u044c",
      solbar: "\u233f",
      solb: "\u29c4",
      sol: "/",
      Sopf: "\ud835\udd4a",
      sopf: "\ud835\udd64",
      spades: "\u2660",
      spadesuit: "\u2660",
      spar: "\u2225",
      sqcap: "\u2293",
      sqcaps: "\u2293\ufe00",
      sqcup: "\u2294",
      sqcups: "\u2294\ufe00",
      Sqrt: "\u221a",
      sqsub: "\u228f",
      sqsube: "\u2291",
      sqsubset: "\u228f",
      sqsubseteq: "\u2291",
      sqsup: "\u2290",
      sqsupe: "\u2292",
      sqsupset: "\u2290",
      sqsupseteq: "\u2292",
      square: "\u25a1",
      Square: "\u25a1",
      SquareIntersection: "\u2293",
      SquareSubset: "\u228f",
      SquareSubsetEqual: "\u2291",
      SquareSuperset: "\u2290",
      SquareSupersetEqual: "\u2292",
      SquareUnion: "\u2294",
      squarf: "\u25aa",
      squ: "\u25a1",
      squf: "\u25aa",
      srarr: "\u2192",
      Sscr: "\ud835\udcae",
      sscr: "\ud835\udcc8",
      ssetmn: "\u2216",
      ssmile: "\u2323",
      sstarf: "\u22c6",
      Star: "\u22c6",
      star: "\u2606",
      starf: "\u2605",
      straightepsilon: "\u03f5",
      straightphi: "\u03d5",
      strns: "\xaf",
      sub: "\u2282",
      Sub: "\u22d0",
      subdot: "\u2abd",
      subE: "\u2ac5",
      sube: "\u2286",
      subedot: "\u2ac3",
      submult: "\u2ac1",
      subnE: "\u2acb",
      subne: "\u228a",
      subplus: "\u2abf",
      subrarr: "\u2979",
      subset: "\u2282",
      Subset: "\u22d0",
      subseteq: "\u2286",
      subseteqq: "\u2ac5",
      SubsetEqual: "\u2286",
      subsetneq: "\u228a",
      subsetneqq: "\u2acb",
      subsim: "\u2ac7",
      subsub: "\u2ad5",
      subsup: "\u2ad3",
      succapprox: "\u2ab8",
      succ: "\u227b",
      succcurlyeq: "\u227d",
      Succeeds: "\u227b",
      SucceedsEqual: "\u2ab0",
      SucceedsSlantEqual: "\u227d",
      SucceedsTilde: "\u227f",
      succeq: "\u2ab0",
      succnapprox: "\u2aba",
      succneqq: "\u2ab6",
      succnsim: "\u22e9",
      succsim: "\u227f",
      SuchThat: "\u220b",
      sum: "\u2211",
      Sum: "\u2211",
      sung: "\u266a",
      sup1: "\xb9",
      sup2: "\xb2",
      sup3: "\xb3",
      sup: "\u2283",
      Sup: "\u22d1",
      supdot: "\u2abe",
      supdsub: "\u2ad8",
      supE: "\u2ac6",
      supe: "\u2287",
      supedot: "\u2ac4",
      Superset: "\u2283",
      SupersetEqual: "\u2287",
      suphsol: "\u27c9",
      suphsub: "\u2ad7",
      suplarr: "\u297b",
      supmult: "\u2ac2",
      supnE: "\u2acc",
      supne: "\u228b",
      supplus: "\u2ac0",
      supset: "\u2283",
      Supset: "\u22d1",
      supseteq: "\u2287",
      supseteqq: "\u2ac6",
      supsetneq: "\u228b",
      supsetneqq: "\u2acc",
      supsim: "\u2ac8",
      supsub: "\u2ad4",
      supsup: "\u2ad6",
      swarhk: "\u2926",
      swarr: "\u2199",
      swArr: "\u21d9",
      swarrow: "\u2199",
      swnwar: "\u292a",
      szlig: "\xdf",
      Tab: "\t",
      target: "\u2316",
      Tau: "\u03a4",
      tau: "\u03c4",
      tbrk: "\u23b4",
      Tcaron: "\u0164",
      tcaron: "\u0165",
      Tcedil: "\u0162",
      tcedil: "\u0163",
      Tcy: "\u0422",
      tcy: "\u0442",
      tdot: "\u20db",
      telrec: "\u2315",
      Tfr: "\ud835\udd17",
      tfr: "\ud835\udd31",
      there4: "\u2234",
      therefore: "\u2234",
      Therefore: "\u2234",
      Theta: "\u0398",
      theta: "\u03b8",
      thetasym: "\u03d1",
      thetav: "\u03d1",
      thickapprox: "\u2248",
      thicksim: "\u223c",
      ThickSpace: "\u205f\u200a",
      ThinSpace: "\u2009",
      thinsp: "\u2009",
      thkap: "\u2248",
      thksim: "\u223c",
      THORN: "\xde",
      thorn: "\xfe",
      tilde: "\u02dc",
      Tilde: "\u223c",
      TildeEqual: "\u2243",
      TildeFullEqual: "\u2245",
      TildeTilde: "\u2248",
      timesbar: "\u2a31",
      timesb: "\u22a0",
      times: "\xd7",
      timesd: "\u2a30",
      tint: "\u222d",
      toea: "\u2928",
      topbot: "\u2336",
      topcir: "\u2af1",
      top: "\u22a4",
      Topf: "\ud835\udd4b",
      topf: "\ud835\udd65",
      topfork: "\u2ada",
      tosa: "\u2929",
      tprime: "\u2034",
      trade: "\u2122",
      TRADE: "\u2122",
      triangle: "\u25b5",
      triangledown: "\u25bf",
      triangleleft: "\u25c3",
      trianglelefteq: "\u22b4",
      triangleq: "\u225c",
      triangleright: "\u25b9",
      trianglerighteq: "\u22b5",
      tridot: "\u25ec",
      trie: "\u225c",
      triminus: "\u2a3a",
      TripleDot: "\u20db",
      triplus: "\u2a39",
      trisb: "\u29cd",
      tritime: "\u2a3b",
      trpezium: "\u23e2",
      Tscr: "\ud835\udcaf",
      tscr: "\ud835\udcc9",
      TScy: "\u0426",
      tscy: "\u0446",
      TSHcy: "\u040b",
      tshcy: "\u045b",
      Tstrok: "\u0166",
      tstrok: "\u0167",
      twixt: "\u226c",
      twoheadleftarrow: "\u219e",
      twoheadrightarrow: "\u21a0",
      Uacute: "\xda",
      uacute: "\xfa",
      uarr: "\u2191",
      Uarr: "\u219f",
      uArr: "\u21d1",
      Uarrocir: "\u2949",
      Ubrcy: "\u040e",
      ubrcy: "\u045e",
      Ubreve: "\u016c",
      ubreve: "\u016d",
      Ucirc: "\xdb",
      ucirc: "\xfb",
      Ucy: "\u0423",
      ucy: "\u0443",
      udarr: "\u21c5",
      Udblac: "\u0170",
      udblac: "\u0171",
      udhar: "\u296e",
      ufisht: "\u297e",
      Ufr: "\ud835\udd18",
      ufr: "\ud835\udd32",
      Ugrave: "\xd9",
      ugrave: "\xf9",
      uHar: "\u2963",
      uharl: "\u21bf",
      uharr: "\u21be",
      uhblk: "\u2580",
      ulcorn: "\u231c",
      ulcorner: "\u231c",
      ulcrop: "\u230f",
      ultri: "\u25f8",
      Umacr: "\u016a",
      umacr: "\u016b",
      uml: "\xa8",
      UnderBar: "_",
      UnderBrace: "\u23df",
      UnderBracket: "\u23b5",
      UnderParenthesis: "\u23dd",
      Union: "\u22c3",
      UnionPlus: "\u228e",
      Uogon: "\u0172",
      uogon: "\u0173",
      Uopf: "\ud835\udd4c",
      uopf: "\ud835\udd66",
      UpArrowBar: "\u2912",
      uparrow: "\u2191",
      UpArrow: "\u2191",
      Uparrow: "\u21d1",
      UpArrowDownArrow: "\u21c5",
      updownarrow: "\u2195",
      UpDownArrow: "\u2195",
      Updownarrow: "\u21d5",
      UpEquilibrium: "\u296e",
      upharpoonleft: "\u21bf",
      upharpoonright: "\u21be",
      uplus: "\u228e",
      UpperLeftArrow: "\u2196",
      UpperRightArrow: "\u2197",
      upsi: "\u03c5",
      Upsi: "\u03d2",
      upsih: "\u03d2",
      Upsilon: "\u03a5",
      upsilon: "\u03c5",
      UpTeeArrow: "\u21a5",
      UpTee: "\u22a5",
      upuparrows: "\u21c8",
      urcorn: "\u231d",
      urcorner: "\u231d",
      urcrop: "\u230e",
      Uring: "\u016e",
      uring: "\u016f",
      urtri: "\u25f9",
      Uscr: "\ud835\udcb0",
      uscr: "\ud835\udcca",
      utdot: "\u22f0",
      Utilde: "\u0168",
      utilde: "\u0169",
      utri: "\u25b5",
      utrif: "\u25b4",
      uuarr: "\u21c8",
      Uuml: "\xdc",
      uuml: "\xfc",
      uwangle: "\u29a7",
      vangrt: "\u299c",
      varepsilon: "\u03f5",
      varkappa: "\u03f0",
      varnothing: "\u2205",
      varphi: "\u03d5",
      varpi: "\u03d6",
      varpropto: "\u221d",
      varr: "\u2195",
      vArr: "\u21d5",
      varrho: "\u03f1",
      varsigma: "\u03c2",
      varsubsetneq: "\u228a\ufe00",
      varsubsetneqq: "\u2acb\ufe00",
      varsupsetneq: "\u228b\ufe00",
      varsupsetneqq: "\u2acc\ufe00",
      vartheta: "\u03d1",
      vartriangleleft: "\u22b2",
      vartriangleright: "\u22b3",
      vBar: "\u2ae8",
      Vbar: "\u2aeb",
      vBarv: "\u2ae9",
      Vcy: "\u0412",
      vcy: "\u0432",
      vdash: "\u22a2",
      vDash: "\u22a8",
      Vdash: "\u22a9",
      VDash: "\u22ab",
      Vdashl: "\u2ae6",
      veebar: "\u22bb",
      vee: "\u2228",
      Vee: "\u22c1",
      veeeq: "\u225a",
      vellip: "\u22ee",
      verbar: "|",
      Verbar: "\u2016",
      vert: "|",
      Vert: "\u2016",
      VerticalBar: "\u2223",
      VerticalLine: "|",
      VerticalSeparator: "\u2758",
      VerticalTilde: "\u2240",
      VeryThinSpace: "\u200a",
      Vfr: "\ud835\udd19",
      vfr: "\ud835\udd33",
      vltri: "\u22b2",
      vnsub: "\u2282\u20d2",
      vnsup: "\u2283\u20d2",
      Vopf: "\ud835\udd4d",
      vopf: "\ud835\udd67",
      vprop: "\u221d",
      vrtri: "\u22b3",
      Vscr: "\ud835\udcb1",
      vscr: "\ud835\udccb",
      vsubnE: "\u2acb\ufe00",
      vsubne: "\u228a\ufe00",
      vsupnE: "\u2acc\ufe00",
      vsupne: "\u228b\ufe00",
      Vvdash: "\u22aa",
      vzigzag: "\u299a",
      Wcirc: "\u0174",
      wcirc: "\u0175",
      wedbar: "\u2a5f",
      wedge: "\u2227",
      Wedge: "\u22c0",
      wedgeq: "\u2259",
      weierp: "\u2118",
      Wfr: "\ud835\udd1a",
      wfr: "\ud835\udd34",
      Wopf: "\ud835\udd4e",
      wopf: "\ud835\udd68",
      wp: "\u2118",
      wr: "\u2240",
      wreath: "\u2240",
      Wscr: "\ud835\udcb2",
      wscr: "\ud835\udccc",
      xcap: "\u22c2",
      xcirc: "\u25ef",
      xcup: "\u22c3",
      xdtri: "\u25bd",
      Xfr: "\ud835\udd1b",
      xfr: "\ud835\udd35",
      xharr: "\u27f7",
      xhArr: "\u27fa",
      Xi: "\u039e",
      xi: "\u03be",
      xlarr: "\u27f5",
      xlArr: "\u27f8",
      xmap: "\u27fc",
      xnis: "\u22fb",
      xodot: "\u2a00",
      Xopf: "\ud835\udd4f",
      xopf: "\ud835\udd69",
      xoplus: "\u2a01",
      xotime: "\u2a02",
      xrarr: "\u27f6",
      xrArr: "\u27f9",
      Xscr: "\ud835\udcb3",
      xscr: "\ud835\udccd",
      xsqcup: "\u2a06",
      xuplus: "\u2a04",
      xutri: "\u25b3",
      xvee: "\u22c1",
      xwedge: "\u22c0",
      Yacute: "\xdd",
      yacute: "\xfd",
      YAcy: "\u042f",
      yacy: "\u044f",
      Ycirc: "\u0176",
      ycirc: "\u0177",
      Ycy: "\u042b",
      ycy: "\u044b",
      yen: "\xa5",
      Yfr: "\ud835\udd1c",
      yfr: "\ud835\udd36",
      YIcy: "\u0407",
      yicy: "\u0457",
      Yopf: "\ud835\udd50",
      yopf: "\ud835\udd6a",
      Yscr: "\ud835\udcb4",
      yscr: "\ud835\udcce",
      YUcy: "\u042e",
      yucy: "\u044e",
      yuml: "\xff",
      Yuml: "\u0178",
      Zacute: "\u0179",
      zacute: "\u017a",
      Zcaron: "\u017d",
      zcaron: "\u017e",
      Zcy: "\u0417",
      zcy: "\u0437",
      Zdot: "\u017b",
      zdot: "\u017c",
      zeetrf: "\u2128",
      ZeroWidthSpace: "\u200b",
      Zeta: "\u0396",
      zeta: "\u03b6",
      zfr: "\ud835\udd37",
      Zfr: "\u2128",
      ZHcy: "\u0416",
      zhcy: "\u0436",
      zigrarr: "\u21dd",
      zopf: "\ud835\udd6b",
      Zopf: "\u2124",
      Zscr: "\ud835\udcb5",
      zscr: "\ud835\udccf",
      zwj: "\u200d",
      zwnj: "\u200c"
    };
    /*eslint quotes:0*/  var entities = require$$0;
    var regex$4 = /[!-#%-\*,-\/:;\?@\[-\]_\{\}\xA1\xA7\xAB\xB6\xB7\xBB\xBF\u037E\u0387\u055A-\u055F\u0589\u058A\u05BE\u05C0\u05C3\u05C6\u05F3\u05F4\u0609\u060A\u060C\u060D\u061B\u061E\u061F\u066A-\u066D\u06D4\u0700-\u070D\u07F7-\u07F9\u0830-\u083E\u085E\u0964\u0965\u0970\u09FD\u0A76\u0AF0\u0C84\u0DF4\u0E4F\u0E5A\u0E5B\u0F04-\u0F12\u0F14\u0F3A-\u0F3D\u0F85\u0FD0-\u0FD4\u0FD9\u0FDA\u104A-\u104F\u10FB\u1360-\u1368\u1400\u166D\u166E\u169B\u169C\u16EB-\u16ED\u1735\u1736\u17D4-\u17D6\u17D8-\u17DA\u1800-\u180A\u1944\u1945\u1A1E\u1A1F\u1AA0-\u1AA6\u1AA8-\u1AAD\u1B5A-\u1B60\u1BFC-\u1BFF\u1C3B-\u1C3F\u1C7E\u1C7F\u1CC0-\u1CC7\u1CD3\u2010-\u2027\u2030-\u2043\u2045-\u2051\u2053-\u205E\u207D\u207E\u208D\u208E\u2308-\u230B\u2329\u232A\u2768-\u2775\u27C5\u27C6\u27E6-\u27EF\u2983-\u2998\u29D8-\u29DB\u29FC\u29FD\u2CF9-\u2CFC\u2CFE\u2CFF\u2D70\u2E00-\u2E2E\u2E30-\u2E4E\u3001-\u3003\u3008-\u3011\u3014-\u301F\u3030\u303D\u30A0\u30FB\uA4FE\uA4FF\uA60D-\uA60F\uA673\uA67E\uA6F2-\uA6F7\uA874-\uA877\uA8CE\uA8CF\uA8F8-\uA8FA\uA8FC\uA92E\uA92F\uA95F\uA9C1-\uA9CD\uA9DE\uA9DF\uAA5C-\uAA5F\uAADE\uAADF\uAAF0\uAAF1\uABEB\uFD3E\uFD3F\uFE10-\uFE19\uFE30-\uFE52\uFE54-\uFE61\uFE63\uFE68\uFE6A\uFE6B\uFF01-\uFF03\uFF05-\uFF0A\uFF0C-\uFF0F\uFF1A\uFF1B\uFF1F\uFF20\uFF3B-\uFF3D\uFF3F\uFF5B\uFF5D\uFF5F-\uFF65]|\uD800[\uDD00-\uDD02\uDF9F\uDFD0]|\uD801\uDD6F|\uD802[\uDC57\uDD1F\uDD3F\uDE50-\uDE58\uDE7F\uDEF0-\uDEF6\uDF39-\uDF3F\uDF99-\uDF9C]|\uD803[\uDF55-\uDF59]|\uD804[\uDC47-\uDC4D\uDCBB\uDCBC\uDCBE-\uDCC1\uDD40-\uDD43\uDD74\uDD75\uDDC5-\uDDC8\uDDCD\uDDDB\uDDDD-\uDDDF\uDE38-\uDE3D\uDEA9]|\uD805[\uDC4B-\uDC4F\uDC5B\uDC5D\uDCC6\uDDC1-\uDDD7\uDE41-\uDE43\uDE60-\uDE6C\uDF3C-\uDF3E]|\uD806[\uDC3B\uDE3F-\uDE46\uDE9A-\uDE9C\uDE9E-\uDEA2]|\uD807[\uDC41-\uDC45\uDC70\uDC71\uDEF7\uDEF8]|\uD809[\uDC70-\uDC74]|\uD81A[\uDE6E\uDE6F\uDEF5\uDF37-\uDF3B\uDF44]|\uD81B[\uDE97-\uDE9A]|\uD82F\uDC9F|\uD836[\uDE87-\uDE8B]|\uD83A[\uDD5E\uDD5F]/;
    var encodeCache = {};
    // Create a lookup array where anything but characters in `chars` string
    // and alphanumeric chars is percent-encoded.
    
      function getEncodeCache(exclude) {
      var i, ch, cache = encodeCache[exclude];
      if (cache) {
        return cache;
      }
      cache = encodeCache[exclude] = [];
      for (i = 0; i < 128; i++) {
        ch = String.fromCharCode(i);
        if (/^[0-9a-z]$/i.test(ch)) {
          // always allow unencoded alphanumeric characters
          cache.push(ch);
        } else {
          cache.push("%" + ("0" + i.toString(16).toUpperCase()).slice(-2));
        }
      }
      for (i = 0; i < exclude.length; i++) {
        cache[exclude.charCodeAt(i)] = exclude[i];
      }
      return cache;
    }
    // Encode unsafe characters with percent-encoding, skipping already
    // encoded sequences.
    
    //  - string       - string to encode
    //  - exclude      - list of characters to ignore (in addition to a-zA-Z0-9)
    //  - keepEscaped  - don't encode '%' in a correct escape sequence (default: true)
    
      function encode$2(string, exclude, keepEscaped) {
      var i, l, code, nextCode, cache, result = "";
      if (typeof exclude !== "string") {
        // encode(string, keepEscaped)
        keepEscaped = exclude;
        exclude = encode$2.defaultChars;
      }
      if (typeof keepEscaped === "undefined") {
        keepEscaped = true;
      }
      cache = getEncodeCache(exclude);
      for (i = 0, l = string.length; i < l; i++) {
        code = string.charCodeAt(i);
        if (keepEscaped && code === 37 /* % */ && i + 2 < l) {
          if (/^[0-9a-f]{2}$/i.test(string.slice(i + 1, i + 3))) {
            result += string.slice(i, i + 3);
            i += 2;
            continue;
          }
        }
        if (code < 128) {
          result += cache[code];
          continue;
        }
        if (code >= 55296 && code <= 57343) {
          if (code >= 55296 && code <= 56319 && i + 1 < l) {
            nextCode = string.charCodeAt(i + 1);
            if (nextCode >= 56320 && nextCode <= 57343) {
              result += encodeURIComponent(string[i] + string[i + 1]);
              i++;
              continue;
            }
          }
          result += "%EF%BF%BD";
          continue;
        }
        result += encodeURIComponent(string[i]);
      }
      return result;
    }
    encode$2.defaultChars = ";/?:@&=+$,-_.!~*'()#";
    encode$2.componentChars = "-_.!~*'()";
    var encode_1 = encode$2;
    /* eslint-disable no-bitwise */  var decodeCache = {};
    function getDecodeCache(exclude) {
      var i, ch, cache = decodeCache[exclude];
      if (cache) {
        return cache;
      }
      cache = decodeCache[exclude] = [];
      for (i = 0; i < 128; i++) {
        ch = String.fromCharCode(i);
        cache.push(ch);
      }
      for (i = 0; i < exclude.length; i++) {
        ch = exclude.charCodeAt(i);
        cache[ch] = "%" + ("0" + ch.toString(16).toUpperCase()).slice(-2);
      }
      return cache;
    }
    // Decode percent-encoded string.
    
      function decode$2(string, exclude) {
      var cache;
      if (typeof exclude !== "string") {
        exclude = decode$2.defaultChars;
      }
      cache = getDecodeCache(exclude);
      return string.replace(/(%[a-f0-9]{2})+/gi, (function(seq) {
        var i, l, b1, b2, b3, b4, chr, result = "";
        for (i = 0, l = seq.length; i < l; i += 3) {
          b1 = parseInt(seq.slice(i + 1, i + 3), 16);
          if (b1 < 128) {
            result += cache[b1];
            continue;
          }
          if ((b1 & 224) === 192 && i + 3 < l) {
            // 110xxxxx 10xxxxxx
            b2 = parseInt(seq.slice(i + 4, i + 6), 16);
            if ((b2 & 192) === 128) {
              chr = b1 << 6 & 1984 | b2 & 63;
              if (chr < 128) {
                result += "\ufffd\ufffd";
              } else {
                result += String.fromCharCode(chr);
              }
              i += 3;
              continue;
            }
          }
          if ((b1 & 240) === 224 && i + 6 < l) {
            // 1110xxxx 10xxxxxx 10xxxxxx
            b2 = parseInt(seq.slice(i + 4, i + 6), 16);
            b3 = parseInt(seq.slice(i + 7, i + 9), 16);
            if ((b2 & 192) === 128 && (b3 & 192) === 128) {
              chr = b1 << 12 & 61440 | b2 << 6 & 4032 | b3 & 63;
              if (chr < 2048 || chr >= 55296 && chr <= 57343) {
                result += "\ufffd\ufffd\ufffd";
              } else {
                result += String.fromCharCode(chr);
              }
              i += 6;
              continue;
            }
          }
          if ((b1 & 248) === 240 && i + 9 < l) {
            // 111110xx 10xxxxxx 10xxxxxx 10xxxxxx
            b2 = parseInt(seq.slice(i + 4, i + 6), 16);
            b3 = parseInt(seq.slice(i + 7, i + 9), 16);
            b4 = parseInt(seq.slice(i + 10, i + 12), 16);
            if ((b2 & 192) === 128 && (b3 & 192) === 128 && (b4 & 192) === 128) {
              chr = b1 << 18 & 1835008 | b2 << 12 & 258048 | b3 << 6 & 4032 | b4 & 63;
              if (chr < 65536 || chr > 1114111) {
                result += "\ufffd\ufffd\ufffd\ufffd";
              } else {
                chr -= 65536;
                result += String.fromCharCode(55296 + (chr >> 10), 56320 + (chr & 1023));
              }
              i += 9;
              continue;
            }
          }
          result += "\ufffd";
        }
        return result;
      }));
    }
    decode$2.defaultChars = ";/?:@&=+$,#";
    decode$2.componentChars = "";
    var decode_1 = decode$2;
    var format$1 = function format(url) {
      var result = "";
      result += url.protocol || "";
      result += url.slashes ? "//" : "";
      result += url.auth ? url.auth + "@" : "";
      if (url.hostname && url.hostname.indexOf(":") !== -1) {
        // ipv6 address
        result += "[" + url.hostname + "]";
      } else {
        result += url.hostname || "";
      }
      result += url.port ? ":" + url.port : "";
      result += url.pathname || "";
      result += url.search || "";
      result += url.hash || "";
      return result;
    };
    // Copyright Joyent, Inc. and other Node contributors.
    
    // Changes from joyent/node:
    
    // 1. No leading slash in paths,
    //    e.g. in `url.parse('http://foo?bar')` pathname is ``, not `/`
    
    // 2. Backslashes are not replaced with slashes,
    //    so `http:\\example.org\` is treated like a relative path
    
    // 3. Trailing colon is treated like a part of the path,
    //    i.e. in `http://example.org:foo` pathname is `:foo`
    
    // 4. Nothing is URL-encoded in the resulting object,
    //    (in joyent/node some chars in auth and paths are encoded)
    
    // 5. `url.parse()` does not have `parseQueryString` argument
    
    // 6. Removed extraneous result properties: `host`, `path`, `query`, etc.,
    //    which can be constructed using other parts of the url.
    
      function Url() {
      this.protocol = null;
      this.slashes = null;
      this.auth = null;
      this.port = null;
      this.hostname = null;
      this.hash = null;
      this.search = null;
      this.pathname = null;
    }
    // Reference: RFC 3986, RFC 1808, RFC 2396
    // define these here so at least they only have to be
    // compiled once on the first module load.
      var protocolPattern = /^([a-z0-9.+-]+:)/i, portPattern = /:[0-9]*$/, 
    // Special case for a simple path URL
    simplePathPattern = /^(\/\/?(?!\/)[^\?\s]*)(\?[^\s]*)?$/, 
    // RFC 2396: characters reserved for delimiting URLs.
    // We actually just auto-escape these.
    delims = [ "<", ">", '"', "`", " ", "\r", "\n", "\t" ], 
    // RFC 2396: characters not allowed for various reasons.
    unwise = [ "{", "}", "|", "\\", "^", "`" ].concat(delims), 
    // Allowed by RFCs, but cause of XSS attacks.  Always escape these.
    autoEscape = [ "'" ].concat(unwise), 
    // Characters that are never ever allowed in a hostname.
    // Note that any invalid chars are also handled, but these
    // are the ones that are *expected* to be seen, so we fast-path
    // them.
    nonHostChars = [ "%", "/", "?", ";", "#" ].concat(autoEscape), hostEndingChars = [ "/", "?", "#" ], hostnameMaxLen = 255, hostnamePartPattern = /^[+a-z0-9A-Z_-]{0,63}$/, hostnamePartStart = /^([+a-z0-9A-Z_-]{0,63})(.*)$/, 
    // protocols that can allow "unsafe" and "unwise" chars.
    /* eslint-disable no-script-url */
    // protocols that never have a hostname.
    hostlessProtocol = {
      javascript: true,
      "javascript:": true
    }, 
    // protocols that always contain a // bit.
    slashedProtocol = {
      http: true,
      https: true,
      ftp: true,
      gopher: true,
      file: true,
      "http:": true,
      "https:": true,
      "ftp:": true,
      "gopher:": true,
      "file:": true
    };
    /* eslint-enable no-script-url */  function urlParse(url, slashesDenoteHost) {
      if (url && url instanceof Url) {
        return url;
      }
      var u = new Url;
      u.parse(url, slashesDenoteHost);
      return u;
    }
    Url.prototype.parse = function(url, slashesDenoteHost) {
      var i, l, lowerProto, hec, slashes, rest = url;
      // trim before proceeding.
      // This is to support parse stuff like "  http://foo.com  \n"
          rest = rest.trim();
      if (!slashesDenoteHost && url.split("#").length === 1) {
        // Try fast path regexp
        var simplePath = simplePathPattern.exec(rest);
        if (simplePath) {
          this.pathname = simplePath[1];
          if (simplePath[2]) {
            this.search = simplePath[2];
          }
          return this;
        }
      }
      var proto = protocolPattern.exec(rest);
      if (proto) {
        proto = proto[0];
        lowerProto = proto.toLowerCase();
        this.protocol = proto;
        rest = rest.substr(proto.length);
      }
      // figure out if it's got a host
      // user@server is *always* interpreted as a hostname, and url
      // resolution will treat //foo/bar as host=foo,path=bar because that's
      // how the browser resolves relative URLs.
          if (slashesDenoteHost || proto || rest.match(/^\/\/[^@\/]+@[^@\/]+/)) {
        slashes = rest.substr(0, 2) === "//";
        if (slashes && !(proto && hostlessProtocol[proto])) {
          rest = rest.substr(2);
          this.slashes = true;
        }
      }
      if (!hostlessProtocol[proto] && (slashes || proto && !slashedProtocol[proto])) {
        // there's a hostname.
        // the first instance of /, ?, ;, or # ends the host.
        // If there is an @ in the hostname, then non-host chars *are* allowed
        // to the left of the last @ sign, unless some host-ending character
        // comes *before* the @-sign.
        // URLs are obnoxious.
        // ex:
        // http://a@b@c/ => user:a@b host:c
        // http://a@b?@c => user:a host:c path:/?@c
        // v0.12 TODO(isaacs): This is not quite how Chrome does things.
        // Review our test case against browsers more comprehensively.
        // find the first instance of any hostEndingChars
        var hostEnd = -1;
        for (i = 0; i < hostEndingChars.length; i++) {
          hec = rest.indexOf(hostEndingChars[i]);
          if (hec !== -1 && (hostEnd === -1 || hec < hostEnd)) {
            hostEnd = hec;
          }
        }
        // at this point, either we have an explicit point where the
        // auth portion cannot go past, or the last @ char is the decider.
              var auth, atSign;
        if (hostEnd === -1) {
          // atSign can be anywhere.
          atSign = rest.lastIndexOf("@");
        } else {
          // atSign must be in auth portion.
          // http://a@b/c@d => host:b auth:a path:/c@d
          atSign = rest.lastIndexOf("@", hostEnd);
        }
        // Now we have a portion which is definitely the auth.
        // Pull that off.
              if (atSign !== -1) {
          auth = rest.slice(0, atSign);
          rest = rest.slice(atSign + 1);
          this.auth = auth;
        }
        // the host is the remaining to the left of the first non-host char
              hostEnd = -1;
        for (i = 0; i < nonHostChars.length; i++) {
          hec = rest.indexOf(nonHostChars[i]);
          if (hec !== -1 && (hostEnd === -1 || hec < hostEnd)) {
            hostEnd = hec;
          }
        }
        // if we still have not hit it, then the entire thing is a host.
              if (hostEnd === -1) {
          hostEnd = rest.length;
        }
        if (rest[hostEnd - 1] === ":") {
          hostEnd--;
        }
        var host = rest.slice(0, hostEnd);
        rest = rest.slice(hostEnd);
        // pull out port.
              this.parseHost(host);
        // we've indicated that there is a hostname,
        // so even if it's empty, it has to be present.
              this.hostname = this.hostname || "";
        // if hostname begins with [ and ends with ]
        // assume that it's an IPv6 address.
              var ipv6Hostname = this.hostname[0] === "[" && this.hostname[this.hostname.length - 1] === "]";
        // validate a little.
              if (!ipv6Hostname) {
          var hostparts = this.hostname.split(/\./);
          for (i = 0, l = hostparts.length; i < l; i++) {
            var part = hostparts[i];
            if (!part) {
              continue;
            }
            if (!part.match(hostnamePartPattern)) {
              var newpart = "";
              for (var j = 0, k = part.length; j < k; j++) {
                if (part.charCodeAt(j) > 127) {
                  // we replace non-ASCII char with a temporary placeholder
                  // we need this to make sure size of hostname is not
                  // broken by replacing non-ASCII by nothing
                  newpart += "x";
                } else {
                  newpart += part[j];
                }
              }
              // we test again with ASCII char only
                          if (!newpart.match(hostnamePartPattern)) {
                var validParts = hostparts.slice(0, i);
                var notHost = hostparts.slice(i + 1);
                var bit = part.match(hostnamePartStart);
                if (bit) {
                  validParts.push(bit[1]);
                  notHost.unshift(bit[2]);
                }
                if (notHost.length) {
                  rest = notHost.join(".") + rest;
                }
                this.hostname = validParts.join(".");
                break;
              }
            }
          }
        }
        if (this.hostname.length > hostnameMaxLen) {
          this.hostname = "";
        }
        // strip [ and ] from the hostname
        // the host field still retains them, though
              if (ipv6Hostname) {
          this.hostname = this.hostname.substr(1, this.hostname.length - 2);
        }
      }
      // chop off from the tail first.
          var hash = rest.indexOf("#");
      if (hash !== -1) {
        // got a fragment string.
        this.hash = rest.substr(hash);
        rest = rest.slice(0, hash);
      }
      var qm = rest.indexOf("?");
      if (qm !== -1) {
        this.search = rest.substr(qm);
        rest = rest.slice(0, qm);
      }
      if (rest) {
        this.pathname = rest;
      }
      if (slashedProtocol[lowerProto] && this.hostname && !this.pathname) {
        this.pathname = "";
      }
      return this;
    };
    Url.prototype.parseHost = function(host) {
      var port = portPattern.exec(host);
      if (port) {
        port = port[0];
        if (port !== ":") {
          this.port = port.substr(1);
        }
        host = host.substr(0, host.length - port.length);
      }
      if (host) {
        this.hostname = host;
      }
    };
    var parse$1 = urlParse;
    var encode$1 = encode_1;
    var decode$1 = decode_1;
    var format = format$1;
    var parse = parse$1;
    var mdurl = {
      encode: encode$1,
      decode: decode$1,
      format: format,
      parse: parse
    };
    var regex$3 = /[\0-\uD7FF\uE000-\uFFFF]|[\uD800-\uDBFF][\uDC00-\uDFFF]|[\uD800-\uDBFF](?![\uDC00-\uDFFF])|(?:[^\uD800-\uDBFF]|^)[\uDC00-\uDFFF]/;
    var regex$2 = /[\0-\x1F\x7F-\x9F]/;
    var regex$1 = /[\xAD\u0600-\u0605\u061C\u06DD\u070F\u08E2\u180E\u200B-\u200F\u202A-\u202E\u2060-\u2064\u2066-\u206F\uFEFF\uFFF9-\uFFFB]|\uD804[\uDCBD\uDCCD]|\uD82F[\uDCA0-\uDCA3]|\uD834[\uDD73-\uDD7A]|\uDB40[\uDC01\uDC20-\uDC7F]/;
    var regex = /[ \xA0\u1680\u2000-\u200A\u2028\u2029\u202F\u205F\u3000]/;
    var Any = regex$3;
    var Cc = regex$2;
    var Cf = regex$1;
    var P = regex$4;
    var Z = regex;
    var uc_micro = {
      Any: Any,
      Cc: Cc,
      Cf: Cf,
      P: P,
      Z: Z
    };
    var utils = createCommonjsModule((function(module, exports) {
      function _class(obj) {
        return Object.prototype.toString.call(obj);
      }
      function isString(obj) {
        return _class(obj) === "[object String]";
      }
      var _hasOwnProperty = Object.prototype.hasOwnProperty;
      function has(object, key) {
        return _hasOwnProperty.call(object, key);
      }
      // Merge objects
      
          function assign(obj /*from1, from2, from3, ...*/) {
        var sources = Array.prototype.slice.call(arguments, 1);
        sources.forEach((function(source) {
          if (!source) {
            return;
          }
          if (typeof source !== "object") {
            throw new TypeError(source + "must be object");
          }
          Object.keys(source).forEach((function(key) {
            obj[key] = source[key];
          }));
        }));
        return obj;
      }
      // Remove element from array and put another array at those position.
      // Useful for some operations with tokens
          function arrayReplaceAt(src, pos, newElements) {
        return [].concat(src.slice(0, pos), newElements, src.slice(pos + 1));
      }
      ////////////////////////////////////////////////////////////////////////////////
          function isValidEntityCode(c) {
        /*eslint no-bitwise:0*/
        // broken sequence
        if (c >= 55296 && c <= 57343) {
          return false;
        }
        // never used
              if (c >= 64976 && c <= 65007) {
          return false;
        }
        if ((c & 65535) === 65535 || (c & 65535) === 65534) {
          return false;
        }
        // control codes
              if (c >= 0 && c <= 8) {
          return false;
        }
        if (c === 11) {
          return false;
        }
        if (c >= 14 && c <= 31) {
          return false;
        }
        if (c >= 127 && c <= 159) {
          return false;
        }
        // out of range
              if (c > 1114111) {
          return false;
        }
        return true;
      }
      function fromCodePoint(c) {
        /*eslint no-bitwise:0*/
        if (c > 65535) {
          c -= 65536;
          var surrogate1 = 55296 + (c >> 10), surrogate2 = 56320 + (c & 1023);
          return String.fromCharCode(surrogate1, surrogate2);
        }
        return String.fromCharCode(c);
      }
      var UNESCAPE_MD_RE = /\\([!"#$%&'()*+,\-.\/:;<=>?@[\\\]^_`{|}~])/g;
      var ENTITY_RE = /&([a-z#][a-z0-9]{1,31});/gi;
      var UNESCAPE_ALL_RE = new RegExp(UNESCAPE_MD_RE.source + "|" + ENTITY_RE.source, "gi");
      var DIGITAL_ENTITY_TEST_RE = /^#((?:x[a-f0-9]{1,8}|[0-9]{1,8}))/i;
      function replaceEntityPattern(match, name) {
        var code = 0;
        if (has(entities, name)) {
          return entities[name];
        }
        if (name.charCodeAt(0) === 35 /* # */ && DIGITAL_ENTITY_TEST_RE.test(name)) {
          code = name[1].toLowerCase() === "x" ? parseInt(name.slice(2), 16) : parseInt(name.slice(1), 10);
          if (isValidEntityCode(code)) {
            return fromCodePoint(code);
          }
        }
        return match;
      }
      /*function replaceEntities(str) {
        if (str.indexOf('&') < 0) { return str; }
  
        return str.replace(ENTITY_RE, replaceEntityPattern);
      }*/    function unescapeMd(str) {
        if (str.indexOf("\\") < 0) {
          return str;
        }
        return str.replace(UNESCAPE_MD_RE, "$1");
      }
      function unescapeAll(str) {
        if (str.indexOf("\\") < 0 && str.indexOf("&") < 0) {
          return str;
        }
        return str.replace(UNESCAPE_ALL_RE, (function(match, escaped, entity) {
          if (escaped) {
            return escaped;
          }
          return replaceEntityPattern(match, entity);
        }));
      }
      ////////////////////////////////////////////////////////////////////////////////
          var HTML_ESCAPE_TEST_RE = /[&<>"]/;
      var HTML_ESCAPE_REPLACE_RE = /[&<>"]/g;
      var HTML_REPLACEMENTS = {
        "&": "&amp;",
        "<": "&lt;",
        ">": "&gt;",
        '"': "&quot;"
      };
      function replaceUnsafeChar(ch) {
        return HTML_REPLACEMENTS[ch];
      }
      function escapeHtml(str) {
        if (HTML_ESCAPE_TEST_RE.test(str)) {
          return str.replace(HTML_ESCAPE_REPLACE_RE, replaceUnsafeChar);
        }
        return str;
      }
      ////////////////////////////////////////////////////////////////////////////////
          var REGEXP_ESCAPE_RE = /[.?*+^$[\]\\(){}|-]/g;
      function escapeRE(str) {
        return str.replace(REGEXP_ESCAPE_RE, "\\$&");
      }
      ////////////////////////////////////////////////////////////////////////////////
          function isSpace(code) {
        switch (code) {
         case 9:
         case 32:
          return true;
        }
        return false;
      }
      // Zs (unicode class) || [\t\f\v\r\n]
          function isWhiteSpace(code) {
        if (code >= 8192 && code <= 8202) {
          return true;
        }
        switch (code) {
         case 9:
   // \t
                 case 10:
   // \n
                 case 11:
   // \v
                 case 12:
   // \f
                 case 13:
   // \r
                 case 32:
         case 160:
         case 5760:
         case 8239:
         case 8287:
         case 12288:
          return true;
        }
        return false;
      }
      ////////////////////////////////////////////////////////////////////////////////
      /*eslint-disable max-len*/
      // Currently without astral characters support.
          function isPunctChar(ch) {
        return regex$4.test(ch);
      }
      // Markdown ASCII punctuation characters.
      
      // !, ", #, $, %, &, ', (, ), *, +, ,, -, ., /, :, ;, <, =, >, ?, @, [, \, ], ^, _, `, {, |, }, or ~
      // http://spec.commonmark.org/0.15/#ascii-punctuation-character
      
      // Don't confuse with unicode punctuation !!! It lacks some chars in ascii range.
      
          function isMdAsciiPunct(ch) {
        switch (ch) {
         case 33 /* ! */ :
         case 34 /* " */ :
         case 35 /* # */ :
         case 36 /* $ */ :
         case 37 /* % */ :
         case 38 /* & */ :
         case 39 /* ' */ :
         case 40 /* ( */ :
         case 41 /* ) */ :
         case 42 /* * */ :
         case 43 /* + */ :
         case 44 /* , */ :
         case 45 /* - */ :
         case 46 /* . */ :
         case 47 /* / */ :
         case 58 /* : */ :
         case 59 /* ; */ :
         case 60 /* < */ :
         case 61 /* = */ :
         case 62 /* > */ :
         case 63 /* ? */ :
         case 64 /* @ */ :
         case 91 /* [ */ :
         case 92 /* \ */ :
         case 93 /* ] */ :
         case 94 /* ^ */ :
         case 95 /* _ */ :
         case 96 /* ` */ :
         case 123 /* { */ :
         case 124 /* | */ :
         case 125 /* } */ :
         case 126 /* ~ */ :
          return true;
  
         default:
          return false;
        }
      }
      // Hepler to unify [reference labels].
      
          function normalizeReference(str) {
        // Trim and collapse whitespace
        str = str.trim().replace(/\s+/g, " ");
        // In node v10 'ẞ'.toLowerCase() === 'Ṿ', which is presumed to be a bug
        // fixed in v12 (couldn't find any details).
        
        // So treat this one as a special case
        // (remove this when node v10 is no longer supported).
        
              if ("\u1e9e".toLowerCase() === "\u1e7e") {
          str = str.replace(/\u1e9e/g, "\xdf");
        }
        // .toLowerCase().toUpperCase() should get rid of all differences
        // between letter variants.
        
        // Simple .toLowerCase() doesn't normalize 125 code points correctly,
        // and .toUpperCase doesn't normalize 6 of them (list of exceptions:
        // İ, ϴ, ẞ, Ω, K, Å - those are already uppercased, but have differently
        // uppercased versions).
        
        // Here's an example showing how it happens. Lets take greek letter omega:
        // uppercase U+0398 (Θ), U+03f4 (ϴ) and lowercase U+03b8 (θ), U+03d1 (ϑ)
        
        // Unicode entries:
        // 0398;GREEK CAPITAL LETTER THETA;Lu;0;L;;;;;N;;;;03B8;
        // 03B8;GREEK SMALL LETTER THETA;Ll;0;L;;;;;N;;;0398;;0398
        // 03D1;GREEK THETA SYMBOL;Ll;0;L;<compat> 03B8;;;;N;GREEK SMALL LETTER SCRIPT THETA;;0398;;0398
        // 03F4;GREEK CAPITAL THETA SYMBOL;Lu;0;L;<compat> 0398;;;;N;;;;03B8;
        
        // Case-insensitive comparison should treat all of them as equivalent.
        
        // But .toLowerCase() doesn't change ϑ (it's already lowercase),
        // and .toUpperCase() doesn't change ϴ (already uppercase).
        
        // Applying first lower then upper case normalizes any character:
        // '\u0398\u03f4\u03b8\u03d1'.toLowerCase().toUpperCase() === '\u0398\u0398\u0398\u0398'
        
        // Note: this is equivalent to unicode case folding; unicode normalization
        // is a different step that is not required here.
        
        // Final result should be uppercased, because it's later stored in an object
        // (this avoid a conflict with Object.prototype members,
        // most notably, `__proto__`)
        
              return str.toLowerCase().toUpperCase();
      }
      ////////////////////////////////////////////////////////////////////////////////
      // Re-export libraries commonly used in both markdown-it and its plugins,
      // so plugins won't have to depend on them explicitly, which reduces their
      // bundled size (e.g. a browser build).
      
          exports.lib = {};
      exports.lib.mdurl = mdurl;
      exports.lib.ucmicro = uc_micro;
      exports.assign = assign;
      exports.isString = isString;
      exports.has = has;
      exports.unescapeMd = unescapeMd;
      exports.unescapeAll = unescapeAll;
      exports.isValidEntityCode = isValidEntityCode;
      exports.fromCodePoint = fromCodePoint;
      // exports.replaceEntities     = replaceEntities;
          exports.escapeHtml = escapeHtml;
      exports.arrayReplaceAt = arrayReplaceAt;
      exports.isSpace = isSpace;
      exports.isWhiteSpace = isWhiteSpace;
      exports.isMdAsciiPunct = isMdAsciiPunct;
      exports.isPunctChar = isPunctChar;
      exports.escapeRE = escapeRE;
      exports.normalizeReference = normalizeReference;
    }));
    // Parse link label
      var parse_link_label = function parseLinkLabel(state, start, disableNested) {
      var level, found, marker, prevPos, labelEnd = -1, max = state.posMax, oldPos = state.pos;
      state.pos = start + 1;
      level = 1;
      while (state.pos < max) {
        marker = state.src.charCodeAt(state.pos);
        if (marker === 93 /* ] */) {
          level--;
          if (level === 0) {
            found = true;
            break;
          }
        }
        prevPos = state.pos;
        state.md.inline.skipToken(state);
        if (marker === 91 /* [ */) {
          if (prevPos === state.pos - 1) {
            // increase level if we find text `[`, which is not a part of any token
            level++;
          } else if (disableNested) {
            state.pos = oldPos;
            return -1;
          }
        }
      }
      if (found) {
        labelEnd = state.pos;
      }
      // restore old state
          state.pos = oldPos;
      return labelEnd;
    };
    var unescapeAll$2 = utils.unescapeAll;
    var parse_link_destination = function parseLinkDestination(str, pos, max) {
      var code, level, lines = 0, start = pos, result = {
        ok: false,
        pos: 0,
        lines: 0,
        str: ""
      };
      if (str.charCodeAt(pos) === 60 /* < */) {
        pos++;
        while (pos < max) {
          code = str.charCodeAt(pos);
          if (code === 10 /* \n */) {
            return result;
          }
          if (code === 60 /* < */) {
            return result;
          }
          if (code === 62 /* > */) {
            result.pos = pos + 1;
            result.str = unescapeAll$2(str.slice(start + 1, pos));
            result.ok = true;
            return result;
          }
          if (code === 92 /* \ */ && pos + 1 < max) {
            pos += 2;
            continue;
          }
          pos++;
        }
        // no closing '>'
              return result;
      }
      // this should be ... } else { ... branch
          level = 0;
      while (pos < max) {
        code = str.charCodeAt(pos);
        if (code === 32) {
          break;
        }
        // ascii control characters
              if (code < 32 || code === 127) {
          break;
        }
        if (code === 92 /* \ */ && pos + 1 < max) {
          if (str.charCodeAt(pos + 1) === 32) {
            break;
          }
          pos += 2;
          continue;
        }
        if (code === 40 /* ( */) {
          level++;
          if (level > 32) {
            return result;
          }
        }
        if (code === 41 /* ) */) {
          if (level === 0) {
            break;
          }
          level--;
        }
        pos++;
      }
      if (start === pos) {
        return result;
      }
      if (level !== 0) {
        return result;
      }
      result.str = unescapeAll$2(str.slice(start, pos));
      result.lines = lines;
      result.pos = pos;
      result.ok = true;
      return result;
    };
    var unescapeAll$1 = utils.unescapeAll;
    var parse_link_title = function parseLinkTitle(str, pos, max) {
      var code, marker, lines = 0, start = pos, result = {
        ok: false,
        pos: 0,
        lines: 0,
        str: ""
      };
      if (pos >= max) {
        return result;
      }
      marker = str.charCodeAt(pos);
      if (marker !== 34 /* " */ && marker !== 39 /* ' */ && marker !== 40 /* ( */) {
        return result;
      }
      pos++;
      // if opening marker is "(", switch it to closing marker ")"
          if (marker === 40) {
        marker = 41;
      }
      while (pos < max) {
        code = str.charCodeAt(pos);
        if (code === marker) {
          result.pos = pos + 1;
          result.lines = lines;
          result.str = unescapeAll$1(str.slice(start + 1, pos));
          result.ok = true;
          return result;
        } else if (code === 40 /* ( */ && marker === 41 /* ) */) {
          return result;
        } else if (code === 10) {
          lines++;
        } else if (code === 92 /* \ */ && pos + 1 < max) {
          pos++;
          if (str.charCodeAt(pos) === 10) {
            lines++;
          }
        }
        pos++;
      }
      return result;
    };
    var parseLinkLabel = parse_link_label;
    var parseLinkDestination = parse_link_destination;
    var parseLinkTitle = parse_link_title;
    var helpers = {
      parseLinkLabel: parseLinkLabel,
      parseLinkDestination: parseLinkDestination,
      parseLinkTitle: parseLinkTitle
    };
    var assign$1 = utils.assign;
    var unescapeAll = utils.unescapeAll;
    var escapeHtml = utils.escapeHtml;
    ////////////////////////////////////////////////////////////////////////////////
      var default_rules = {};
    default_rules.code_inline = function(tokens, idx, options, env, slf) {
      var token = tokens[idx];
      return "<code" + slf.renderAttrs(token) + ">" + escapeHtml(tokens[idx].content) + "</code>";
    };
    default_rules.code_block = function(tokens, idx, options, env, slf) {
      var token = tokens[idx];
      return "<pre" + slf.renderAttrs(token) + "><code>" + escapeHtml(tokens[idx].content) + "</code></pre>\n";
    };
    default_rules.fence = function(tokens, idx, options, env, slf) {
      var token = tokens[idx], info = token.info ? unescapeAll(token.info).trim() : "", langName = "", langAttrs = "", highlighted, i, arr, tmpAttrs, tmpToken;
      if (info) {
        arr = info.split(/(\s+)/g);
        langName = arr[0];
        langAttrs = arr.slice(2).join("");
      }
      if (options.highlight) {
        highlighted = options.highlight(token.content, langName, langAttrs) || escapeHtml(token.content);
      } else {
        highlighted = escapeHtml(token.content);
      }
      if (highlighted.indexOf("<pre") === 0) {
        return highlighted + "\n";
      }
      // If language exists, inject class gently, without modifying original token.
      // May be, one day we will add .deepClone() for token and simplify this part, but
      // now we prefer to keep things local.
          if (info) {
        i = token.attrIndex("class");
        tmpAttrs = token.attrs ? token.attrs.slice() : [];
        if (i < 0) {
          tmpAttrs.push([ "class", options.langPrefix + langName ]);
        } else {
          tmpAttrs[i] = tmpAttrs[i].slice();
          tmpAttrs[i][1] += " " + options.langPrefix + langName;
        }
        // Fake token just to render attributes
              tmpToken = {
          attrs: tmpAttrs
        };
        return "<pre><code" + slf.renderAttrs(tmpToken) + ">" + highlighted + "</code></pre>\n";
      }
      return "<pre><code" + slf.renderAttrs(token) + ">" + highlighted + "</code></pre>\n";
    };
    default_rules.image = function(tokens, idx, options, env, slf) {
      var token = tokens[idx];
      // "alt" attr MUST be set, even if empty. Because it's mandatory and
      // should be placed on proper position for tests.
      
      // Replace content with actual value
          token.attrs[token.attrIndex("alt")][1] = slf.renderInlineAsText(token.children, options, env);
      return slf.renderToken(tokens, idx, options);
    };
    default_rules.hardbreak = function(tokens, idx, options /*, env */) {
      return options.xhtmlOut ? "<br />\n" : "<br>\n";
    };
    default_rules.softbreak = function(tokens, idx, options /*, env */) {
      return options.breaks ? options.xhtmlOut ? "<br />\n" : "<br>\n" : "\n";
    };
    default_rules.text = function(tokens, idx /*, options, env */) {
      return escapeHtml(tokens[idx].content);
    };
    default_rules.html_block = function(tokens, idx /*, options, env */) {
      return tokens[idx].content;
    };
    default_rules.html_inline = function(tokens, idx /*, options, env */) {
      return tokens[idx].content;
    };
    /**
       * new Renderer()
       *
       * Creates new [[Renderer]] instance and fill [[Renderer#rules]] with defaults.
       **/  function Renderer() {
      /**
         * Renderer#rules -> Object
         *
         * Contains render rules for tokens. Can be updated and extended.
         *
         * ##### Example
         *
         * ```javascript
         * var md = require('markdown-it')();
         *
         * md.renderer.rules.strong_open  = function () { return '<b>'; };
         * md.renderer.rules.strong_close = function () { return '</b>'; };
         *
         * var result = md.renderInline(...);
         * ```
         *
         * Each rule is called as independent static function with fixed signature:
         *
         * ```javascript
         * function my_token_render(tokens, idx, options, env, renderer) {
         *   // ...
         *   return renderedHTML;
         * }
         * ```
         *
         * See [source code](https://github.com/markdown-it/markdown-it/blob/master/lib/renderer.js)
         * for more details and examples.
         **/
      this.rules = assign$1({}, default_rules);
    }
    /**
       * Renderer.renderAttrs(token) -> String
       *
       * Render token attributes to string.
       **/  Renderer.prototype.renderAttrs = function renderAttrs(token) {
      var i, l, result;
      if (!token.attrs) {
        return "";
      }
      result = "";
      for (i = 0, l = token.attrs.length; i < l; i++) {
        result += " " + escapeHtml(token.attrs[i][0]) + '="' + escapeHtml(token.attrs[i][1]) + '"';
      }
      return result;
    };
    /**
       * Renderer.renderToken(tokens, idx, options) -> String
       * - tokens (Array): list of tokens
       * - idx (Numbed): token index to render
       * - options (Object): params of parser instance
       *
       * Default token renderer. Can be overriden by custom function
       * in [[Renderer#rules]].
       **/  Renderer.prototype.renderToken = function renderToken(tokens, idx, options) {
      var nextToken, result = "", needLf = false, token = tokens[idx];
      // Tight list paragraphs
          if (token.hidden) {
        return "";
      }
      // Insert a newline between hidden paragraph and subsequent opening
      // block-level tag.
      
      // For example, here we should insert a newline before blockquote:
      //  - a
      //    >
      
          if (token.block && token.nesting !== -1 && idx && tokens[idx - 1].hidden) {
        result += "\n";
      }
      // Add token name, e.g. `<img`
          result += (token.nesting === -1 ? "</" : "<") + token.tag;
      // Encode attributes, e.g. `<img src="foo"`
          result += this.renderAttrs(token);
      // Add a slash for self-closing tags, e.g. `<img src="foo" /`
          if (token.nesting === 0 && options.xhtmlOut) {
        result += " /";
      }
      // Check if we need to add a newline after this tag
          if (token.block) {
        needLf = true;
        if (token.nesting === 1) {
          if (idx + 1 < tokens.length) {
            nextToken = tokens[idx + 1];
            if (nextToken.type === "inline" || nextToken.hidden) {
              // Block-level tag containing an inline tag.
              needLf = false;
            } else if (nextToken.nesting === -1 && nextToken.tag === token.tag) {
              // Opening tag + closing tag of the same type. E.g. `<li></li>`.
              needLf = false;
            }
          }
        }
      }
      result += needLf ? ">\n" : ">";
      return result;
    };
    /**
       * Renderer.renderInline(tokens, options, env) -> String
       * - tokens (Array): list on block tokens to render
       * - options (Object): params of parser instance
       * - env (Object): additional data from parsed input (references, for example)
       *
       * The same as [[Renderer.render]], but for single token of `inline` type.
       **/  Renderer.prototype.renderInline = function(tokens, options, env) {
      var type, result = "", rules = this.rules;
      for (var i = 0, len = tokens.length; i < len; i++) {
        type = tokens[i].type;
        if (typeof rules[type] !== "undefined") {
          result += rules[type](tokens, i, options, env, this);
        } else {
          result += this.renderToken(tokens, i, options);
        }
      }
      return result;
    };
    /** internal
       * Renderer.renderInlineAsText(tokens, options, env) -> String
       * - tokens (Array): list on block tokens to render
       * - options (Object): params of parser instance
       * - env (Object): additional data from parsed input (references, for example)
       *
       * Special kludge for image `alt` attributes to conform CommonMark spec.
       * Don't try to use it! Spec requires to show `alt` content with stripped markup,
       * instead of simple escaping.
       **/  Renderer.prototype.renderInlineAsText = function(tokens, options, env) {
      var result = "";
      for (var i = 0, len = tokens.length; i < len; i++) {
        if (tokens[i].type === "text") {
          result += tokens[i].content;
        } else if (tokens[i].type === "image") {
          result += this.renderInlineAsText(tokens[i].children, options, env);
        } else if (tokens[i].type === "softbreak") {
          result += "\n";
        }
      }
      return result;
    };
    /**
       * Renderer.render(tokens, options, env) -> String
       * - tokens (Array): list on block tokens to render
       * - options (Object): params of parser instance
       * - env (Object): additional data from parsed input (references, for example)
       *
       * Takes token stream and generates HTML. Probably, you will never need to call
       * this method directly.
       **/  Renderer.prototype.render = function(tokens, options, env) {
      var i, len, type, result = "", rules = this.rules;
      for (i = 0, len = tokens.length; i < len; i++) {
        type = tokens[i].type;
        if (type === "inline") {
          result += this.renderInline(tokens[i].children, options, env);
        } else if (typeof rules[type] !== "undefined") {
          result += rules[tokens[i].type](tokens, i, options, env, this);
        } else {
          result += this.renderToken(tokens, i, options, env);
        }
      }
      return result;
    };
    var renderer = Renderer;
    /**
       * class Ruler
       *
       * Helper class, used by [[MarkdownIt#core]], [[MarkdownIt#block]] and
       * [[MarkdownIt#inline]] to manage sequences of functions (rules):
       *
       * - keep rules in defined order
       * - assign the name to each rule
       * - enable/disable rules
       * - add/replace rules
       * - allow assign rules to additional named chains (in the same)
       * - cacheing lists of active rules
       *
       * You will not need use this class directly until write plugins. For simple
       * rules control use [[MarkdownIt.disable]], [[MarkdownIt.enable]] and
       * [[MarkdownIt.use]].
       **/
    /**
       * new Ruler()
       **/  function Ruler() {
      // List of added rules. Each element is:
      // {
      //   name: XXX,
      //   enabled: Boolean,
      //   fn: Function(),
      //   alt: [ name2, name3 ]
      // }
      this.__rules__ = [];
      // Cached rule chains.
      
      // First level - chain name, '' for default.
      // Second level - diginal anchor for fast filtering by charcodes.
      
          this.__cache__ = null;
    }
    ////////////////////////////////////////////////////////////////////////////////
    // Helper methods, should not be used directly
    // Find rule index by name
    
      Ruler.prototype.__find__ = function(name) {
      for (var i = 0; i < this.__rules__.length; i++) {
        if (this.__rules__[i].name === name) {
          return i;
        }
      }
      return -1;
    };
    // Build rules lookup cache
    
      Ruler.prototype.__compile__ = function() {
      var self = this;
      var chains = [ "" ];
      // collect unique names
          self.__rules__.forEach((function(rule) {
        if (!rule.enabled) {
          return;
        }
        rule.alt.forEach((function(altName) {
          if (chains.indexOf(altName) < 0) {
            chains.push(altName);
          }
        }));
      }));
      self.__cache__ = {};
      chains.forEach((function(chain) {
        self.__cache__[chain] = [];
        self.__rules__.forEach((function(rule) {
          if (!rule.enabled) {
            return;
          }
          if (chain && rule.alt.indexOf(chain) < 0) {
            return;
          }
          self.__cache__[chain].push(rule.fn);
        }));
      }));
    };
    /**
       * Ruler.at(name, fn [, options])
       * - name (String): rule name to replace.
       * - fn (Function): new rule function.
       * - options (Object): new rule options (not mandatory).
       *
       * Replace rule by name with new function & options. Throws error if name not
       * found.
       *
       * ##### Options:
       *
       * - __alt__ - array with names of "alternate" chains.
       *
       * ##### Example
       *
       * Replace existing typographer replacement rule with new one:
       *
       * ```javascript
       * var md = require('markdown-it')();
       *
       * md.core.ruler.at('replacements', function replace(state) {
       *   //...
       * });
       * ```
       **/  Ruler.prototype.at = function(name, fn, options) {
      var index = this.__find__(name);
      var opt = options || {};
      if (index === -1) {
        throw new Error("Parser rule not found: " + name);
      }
      this.__rules__[index].fn = fn;
      this.__rules__[index].alt = opt.alt || [];
      this.__cache__ = null;
    };
    /**
       * Ruler.before(beforeName, ruleName, fn [, options])
       * - beforeName (String): new rule will be added before this one.
       * - ruleName (String): name of added rule.
       * - fn (Function): rule function.
       * - options (Object): rule options (not mandatory).
       *
       * Add new rule to chain before one with given name. See also
       * [[Ruler.after]], [[Ruler.push]].
       *
       * ##### Options:
       *
       * - __alt__ - array with names of "alternate" chains.
       *
       * ##### Example
       *
       * ```javascript
       * var md = require('markdown-it')();
       *
       * md.block.ruler.before('paragraph', 'my_rule', function replace(state) {
       *   //...
       * });
       * ```
       **/  Ruler.prototype.before = function(beforeName, ruleName, fn, options) {
      var index = this.__find__(beforeName);
      var opt = options || {};
      if (index === -1) {
        throw new Error("Parser rule not found: " + beforeName);
      }
      this.__rules__.splice(index, 0, {
        name: ruleName,
        enabled: true,
        fn: fn,
        alt: opt.alt || []
      });
      this.__cache__ = null;
    };
    /**
       * Ruler.after(afterName, ruleName, fn [, options])
       * - afterName (String): new rule will be added after this one.
       * - ruleName (String): name of added rule.
       * - fn (Function): rule function.
       * - options (Object): rule options (not mandatory).
       *
       * Add new rule to chain after one with given name. See also
       * [[Ruler.before]], [[Ruler.push]].
       *
       * ##### Options:
       *
       * - __alt__ - array with names of "alternate" chains.
       *
       * ##### Example
       *
       * ```javascript
       * var md = require('markdown-it')();
       *
       * md.inline.ruler.after('text', 'my_rule', function replace(state) {
       *   //...
       * });
       * ```
       **/  Ruler.prototype.after = function(afterName, ruleName, fn, options) {
      var index = this.__find__(afterName);
      var opt = options || {};
      if (index === -1) {
        throw new Error("Parser rule not found: " + afterName);
      }
      this.__rules__.splice(index + 1, 0, {
        name: ruleName,
        enabled: true,
        fn: fn,
        alt: opt.alt || []
      });
      this.__cache__ = null;
    };
    /**
       * Ruler.push(ruleName, fn [, options])
       * - ruleName (String): name of added rule.
       * - fn (Function): rule function.
       * - options (Object): rule options (not mandatory).
       *
       * Push new rule to the end of chain. See also
       * [[Ruler.before]], [[Ruler.after]].
       *
       * ##### Options:
       *
       * - __alt__ - array with names of "alternate" chains.
       *
       * ##### Example
       *
       * ```javascript
       * var md = require('markdown-it')();
       *
       * md.core.ruler.push('my_rule', function replace(state) {
       *   //...
       * });
       * ```
       **/  Ruler.prototype.push = function(ruleName, fn, options) {
      var opt = options || {};
      this.__rules__.push({
        name: ruleName,
        enabled: true,
        fn: fn,
        alt: opt.alt || []
      });
      this.__cache__ = null;
    };
    /**
       * Ruler.enable(list [, ignoreInvalid]) -> Array
       * - list (String|Array): list of rule names to enable.
       * - ignoreInvalid (Boolean): set `true` to ignore errors when rule not found.
       *
       * Enable rules with given names. If any rule name not found - throw Error.
       * Errors can be disabled by second param.
       *
       * Returns list of found rule names (if no exception happened).
       *
       * See also [[Ruler.disable]], [[Ruler.enableOnly]].
       **/  Ruler.prototype.enable = function(list, ignoreInvalid) {
      if (!Array.isArray(list)) {
        list = [ list ];
      }
      var result = [];
      // Search by name and enable
          list.forEach((function(name) {
        var idx = this.__find__(name);
        if (idx < 0) {
          if (ignoreInvalid) {
            return;
          }
          throw new Error("Rules manager: invalid rule name " + name);
        }
        this.__rules__[idx].enabled = true;
        result.push(name);
      }), this);
      this.__cache__ = null;
      return result;
    };
    /**
       * Ruler.enableOnly(list [, ignoreInvalid])
       * - list (String|Array): list of rule names to enable (whitelist).
       * - ignoreInvalid (Boolean): set `true` to ignore errors when rule not found.
       *
       * Enable rules with given names, and disable everything else. If any rule name
       * not found - throw Error. Errors can be disabled by second param.
       *
       * See also [[Ruler.disable]], [[Ruler.enable]].
       **/  Ruler.prototype.enableOnly = function(list, ignoreInvalid) {
      if (!Array.isArray(list)) {
        list = [ list ];
      }
      this.__rules__.forEach((function(rule) {
        rule.enabled = false;
      }));
      this.enable(list, ignoreInvalid);
    };
    /**
       * Ruler.disable(list [, ignoreInvalid]) -> Array
       * - list (String|Array): list of rule names to disable.
       * - ignoreInvalid (Boolean): set `true` to ignore errors when rule not found.
       *
       * Disable rules with given names. If any rule name not found - throw Error.
       * Errors can be disabled by second param.
       *
       * Returns list of found rule names (if no exception happened).
       *
       * See also [[Ruler.enable]], [[Ruler.enableOnly]].
       **/  Ruler.prototype.disable = function(list, ignoreInvalid) {
      if (!Array.isArray(list)) {
        list = [ list ];
      }
      var result = [];
      // Search by name and disable
          list.forEach((function(name) {
        var idx = this.__find__(name);
        if (idx < 0) {
          if (ignoreInvalid) {
            return;
          }
          throw new Error("Rules manager: invalid rule name " + name);
        }
        this.__rules__[idx].enabled = false;
        result.push(name);
      }), this);
      this.__cache__ = null;
      return result;
    };
    /**
       * Ruler.getRules(chainName) -> Array
       *
       * Return array of active functions (rules) for given chain name. It analyzes
       * rules configuration, compiles caches if not exists and returns result.
       *
       * Default chain name is `''` (empty string). It can't be skipped. That's
       * done intentionally, to keep signature monomorphic for high speed.
       **/  Ruler.prototype.getRules = function(chainName) {
      if (this.__cache__ === null) {
        this.__compile__();
      }
      // Chain can be empty, if rules disabled. But we still have to return Array.
          return this.__cache__[chainName] || [];
    };
    var ruler = Ruler;
    // Normalize input string
    // https://spec.commonmark.org/0.29/#line-ending
      var NEWLINES_RE = /\r\n?|\n/g;
    var NULL_RE = /\0/g;
    var normalize = function normalize(state) {
      var str;
      // Normalize newlines
          str = state.src.replace(NEWLINES_RE, "\n");
      // Replace NULL characters
          str = str.replace(NULL_RE, "\ufffd");
      state.src = str;
    };
    var block = function block(state) {
      var token;
      if (state.inlineMode) {
        token = new state.Token("inline", "", 0);
        token.content = state.src;
        token.map = [ 0, 1 ];
        token.children = [];
        state.tokens.push(token);
      } else {
        state.md.block.parse(state.src, state.md, state.env, state.tokens);
      }
    };
    var inline = function inline(state) {
      var tokens = state.tokens, tok, i, l;
      // Parse inlines
          for (i = 0, l = tokens.length; i < l; i++) {
        tok = tokens[i];
        if (tok.type === "inline") {
          state.md.inline.parse(tok.content, state.md, state.env, tok.children);
        }
      }
    };
    var arrayReplaceAt = utils.arrayReplaceAt;
    function isLinkOpen$1(str) {
      return /^<a[>\s]/i.test(str);
    }
    function isLinkClose$1(str) {
      return /^<\/a\s*>/i.test(str);
    }
    var linkify$1 = function linkify(state) {
      var i, j, l, tokens, token, currentToken, nodes, ln, text, pos, lastPos, level, htmlLinkLevel, url, fullUrl, urlText, blockTokens = state.tokens, links;
      if (!state.md.options.linkify) {
        return;
      }
      for (j = 0, l = blockTokens.length; j < l; j++) {
        if (blockTokens[j].type !== "inline" || !state.md.linkify.pretest(blockTokens[j].content)) {
          continue;
        }
        tokens = blockTokens[j].children;
        htmlLinkLevel = 0;
        // We scan from the end, to keep position when new tags added.
        // Use reversed logic in links start/end match
              for (i = tokens.length - 1; i >= 0; i--) {
          currentToken = tokens[i];
          // Skip content of markdown links
                  if (currentToken.type === "link_close") {
            i--;
            while (tokens[i].level !== currentToken.level && tokens[i].type !== "link_open") {
              i--;
            }
            continue;
          }
          // Skip content of html tag links
                  if (currentToken.type === "html_inline") {
            if (isLinkOpen$1(currentToken.content) && htmlLinkLevel > 0) {
              htmlLinkLevel--;
            }
            if (isLinkClose$1(currentToken.content)) {
              htmlLinkLevel++;
            }
          }
          if (htmlLinkLevel > 0) {
            continue;
          }
          if (currentToken.type === "text" && state.md.linkify.test(currentToken.content)) {
            text = currentToken.content;
            links = state.md.linkify.match(text);
            // Now split string to nodes
                      nodes = [];
            level = currentToken.level;
            lastPos = 0;
            // forbid escape sequence at the start of the string,
            // this avoids http\://example.com/ from being linkified as
            // http:<a href="//example.com/">//example.com/</a>
                      if (links.length > 0 && links[0].index === 0 && i > 0 && tokens[i - 1].type === "text_special") {
              links = links.slice(1);
            }
            for (ln = 0; ln < links.length; ln++) {
              url = links[ln].url;
              fullUrl = state.md.normalizeLink(url);
              if (!state.md.validateLink(fullUrl)) {
                continue;
              }
              urlText = links[ln].text;
              // Linkifier might send raw hostnames like "example.com", where url
              // starts with domain name. So we prepend http:// in those cases,
              // and remove it afterwards.
              
                          if (!links[ln].schema) {
                urlText = state.md.normalizeLinkText("http://" + urlText).replace(/^http:\/\//, "");
              } else if (links[ln].schema === "mailto:" && !/^mailto:/i.test(urlText)) {
                urlText = state.md.normalizeLinkText("mailto:" + urlText).replace(/^mailto:/, "");
              } else {
                urlText = state.md.normalizeLinkText(urlText);
              }
              pos = links[ln].index;
              if (pos > lastPos) {
                token = new state.Token("text", "", 0);
                token.content = text.slice(lastPos, pos);
                token.level = level;
                nodes.push(token);
              }
              token = new state.Token("link_open", "a", 1);
              token.attrs = [ [ "href", fullUrl ] ];
              token.level = level++;
              token.markup = "linkify";
              token.info = "auto";
              nodes.push(token);
              token = new state.Token("text", "", 0);
              token.content = urlText;
              token.level = level;
              nodes.push(token);
              token = new state.Token("link_close", "a", -1);
              token.level = --level;
              token.markup = "linkify";
              token.info = "auto";
              nodes.push(token);
              lastPos = links[ln].lastIndex;
            }
            if (lastPos < text.length) {
              token = new state.Token("text", "", 0);
              token.content = text.slice(lastPos);
              token.level = level;
              nodes.push(token);
            }
            // replace current node
                      blockTokens[j].children = tokens = arrayReplaceAt(tokens, i, nodes);
          }
        }
      }
    };
    // Simple typographic replacements
    // TODO:
    // - fractionals 1/2, 1/4, 3/4 -> ½, ¼, ¾
    // - multiplications 2 x 4 -> 2 × 4
      var RARE_RE = /\+-|\.\.|\?\?\?\?|!!!!|,,|--/;
    // Workaround for phantomjs - need regex without /g flag,
    // or root check will fail every second time
      var SCOPED_ABBR_TEST_RE = /\((c|tm|r)\)/i;
    var SCOPED_ABBR_RE = /\((c|tm|r)\)/gi;
    var SCOPED_ABBR = {
      c: "\xa9",
      r: "\xae",
      tm: "\u2122"
    };
    function replaceFn(match, name) {
      return SCOPED_ABBR[name.toLowerCase()];
    }
    function replace_scoped(inlineTokens) {
      var i, token, inside_autolink = 0;
      for (i = inlineTokens.length - 1; i >= 0; i--) {
        token = inlineTokens[i];
        if (token.type === "text" && !inside_autolink) {
          token.content = token.content.replace(SCOPED_ABBR_RE, replaceFn);
        }
        if (token.type === "link_open" && token.info === "auto") {
          inside_autolink--;
        }
        if (token.type === "link_close" && token.info === "auto") {
          inside_autolink++;
        }
      }
    }
    function replace_rare(inlineTokens) {
      var i, token, inside_autolink = 0;
      for (i = inlineTokens.length - 1; i >= 0; i--) {
        token = inlineTokens[i];
        if (token.type === "text" && !inside_autolink) {
          if (RARE_RE.test(token.content)) {
            token.content = token.content.replace(/\+-/g, "\xb1").replace(/\.{2,}/g, "\u2026").replace(/([?!])\u2026/g, "$1..").replace(/([?!]){4,}/g, "$1$1$1").replace(/,{2,}/g, ",").replace(/(^|[^-])---(?=[^-]|$)/gm, "$1\u2014").replace(/(^|\s)--(?=\s|$)/gm, "$1\u2013").replace(/(^|[^-\s])--(?=[^-\s]|$)/gm, "$1\u2013");
          }
        }
        if (token.type === "link_open" && token.info === "auto") {
          inside_autolink--;
        }
        if (token.type === "link_close" && token.info === "auto") {
          inside_autolink++;
        }
      }
    }
    var replacements = function replace(state) {
      var blkIdx;
      if (!state.md.options.typographer) {
        return;
      }
      for (blkIdx = state.tokens.length - 1; blkIdx >= 0; blkIdx--) {
        if (state.tokens[blkIdx].type !== "inline") {
          continue;
        }
        if (SCOPED_ABBR_TEST_RE.test(state.tokens[blkIdx].content)) {
          replace_scoped(state.tokens[blkIdx].children);
        }
        if (RARE_RE.test(state.tokens[blkIdx].content)) {
          replace_rare(state.tokens[blkIdx].children);
        }
      }
    };
    var isWhiteSpace$1 = utils.isWhiteSpace;
    var isPunctChar$1 = utils.isPunctChar;
    var isMdAsciiPunct$1 = utils.isMdAsciiPunct;
    var QUOTE_TEST_RE = /['"]/;
    var QUOTE_RE = /['"]/g;
    var APOSTROPHE = "\u2019";
   /* ’ */  function replaceAt(str, index, ch) {
      return str.slice(0, index) + ch + str.slice(index + 1);
    }
    function process_inlines(tokens, state) {
      var i, token, text, t, pos, max, thisLevel, item, lastChar, nextChar, isLastPunctChar, isNextPunctChar, isLastWhiteSpace, isNextWhiteSpace, canOpen, canClose, j, isSingle, stack, openQuote, closeQuote;
      stack = [];
      for (i = 0; i < tokens.length; i++) {
        token = tokens[i];
        thisLevel = tokens[i].level;
        for (j = stack.length - 1; j >= 0; j--) {
          if (stack[j].level <= thisLevel) {
            break;
          }
        }
        stack.length = j + 1;
        if (token.type !== "text") {
          continue;
        }
        text = token.content;
        pos = 0;
        max = text.length;
        /*eslint no-labels:0,block-scoped-var:0*/      OUTER: while (pos < max) {
          QUOTE_RE.lastIndex = pos;
          t = QUOTE_RE.exec(text);
          if (!t) {
            break;
          }
          canOpen = canClose = true;
          pos = t.index + 1;
          isSingle = t[0] === "'";
          // Find previous character,
          // default to space if it's the beginning of the line
          
                  lastChar = 32;
          if (t.index - 1 >= 0) {
            lastChar = text.charCodeAt(t.index - 1);
          } else {
            for (j = i - 1; j >= 0; j--) {
              if (tokens[j].type === "softbreak" || tokens[j].type === "hardbreak") break;
   // lastChar defaults to 0x20
                          if (!tokens[j].content) continue;
   // should skip all tokens except 'text', 'html_inline' or 'code_inline'
                          lastChar = tokens[j].content.charCodeAt(tokens[j].content.length - 1);
              break;
            }
          }
          // Find next character,
          // default to space if it's the end of the line
          
                  nextChar = 32;
          if (pos < max) {
            nextChar = text.charCodeAt(pos);
          } else {
            for (j = i + 1; j < tokens.length; j++) {
              if (tokens[j].type === "softbreak" || tokens[j].type === "hardbreak") break;
   // nextChar defaults to 0x20
                          if (!tokens[j].content) continue;
   // should skip all tokens except 'text', 'html_inline' or 'code_inline'
                          nextChar = tokens[j].content.charCodeAt(0);
              break;
            }
          }
          isLastPunctChar = isMdAsciiPunct$1(lastChar) || isPunctChar$1(String.fromCharCode(lastChar));
          isNextPunctChar = isMdAsciiPunct$1(nextChar) || isPunctChar$1(String.fromCharCode(nextChar));
          isLastWhiteSpace = isWhiteSpace$1(lastChar);
          isNextWhiteSpace = isWhiteSpace$1(nextChar);
          if (isNextWhiteSpace) {
            canOpen = false;
          } else if (isNextPunctChar) {
            if (!(isLastWhiteSpace || isLastPunctChar)) {
              canOpen = false;
            }
          }
          if (isLastWhiteSpace) {
            canClose = false;
          } else if (isLastPunctChar) {
            if (!(isNextWhiteSpace || isNextPunctChar)) {
              canClose = false;
            }
          }
          if (nextChar === 34 /* " */ && t[0] === '"') {
            if (lastChar >= 48 /* 0 */ && lastChar <= 57 /* 9 */) {
              // special case: 1"" - count first quote as an inch
              canClose = canOpen = false;
            }
          }
          if (canOpen && canClose) {
            // Replace quotes in the middle of punctuation sequence, but not
            // in the middle of the words, i.e.:
            // 1. foo " bar " baz - not replaced
            // 2. foo-"-bar-"-baz - replaced
            // 3. foo"bar"baz     - not replaced
            canOpen = isLastPunctChar;
            canClose = isNextPunctChar;
          }
          if (!canOpen && !canClose) {
            // middle of word
            if (isSingle) {
              token.content = replaceAt(token.content, t.index, APOSTROPHE);
            }
            continue;
          }
          if (canClose) {
            // this could be a closing quote, rewind the stack to get a match
            for (j = stack.length - 1; j >= 0; j--) {
              item = stack[j];
              if (stack[j].level < thisLevel) {
                break;
              }
              if (item.single === isSingle && stack[j].level === thisLevel) {
                item = stack[j];
                if (isSingle) {
                  openQuote = state.md.options.quotes[2];
                  closeQuote = state.md.options.quotes[3];
                } else {
                  openQuote = state.md.options.quotes[0];
                  closeQuote = state.md.options.quotes[1];
                }
                // replace token.content *before* tokens[item.token].content,
                // because, if they are pointing at the same token, replaceAt
                // could mess up indices when quote length != 1
                              token.content = replaceAt(token.content, t.index, closeQuote);
                tokens[item.token].content = replaceAt(tokens[item.token].content, item.pos, openQuote);
                pos += closeQuote.length - 1;
                if (item.token === i) {
                  pos += openQuote.length - 1;
                }
                text = token.content;
                max = text.length;
                stack.length = j;
                continue OUTER;
              }
            }
          }
          if (canOpen) {
            stack.push({
              token: i,
              pos: t.index,
              single: isSingle,
              level: thisLevel
            });
          } else if (canClose && isSingle) {
            token.content = replaceAt(token.content, t.index, APOSTROPHE);
          }
        }
      }
    }
    var smartquotes = function smartquotes(state) {
      /*eslint max-depth:0*/
      var blkIdx;
      if (!state.md.options.typographer) {
        return;
      }
      for (blkIdx = state.tokens.length - 1; blkIdx >= 0; blkIdx--) {
        if (state.tokens[blkIdx].type !== "inline" || !QUOTE_TEST_RE.test(state.tokens[blkIdx].content)) {
          continue;
        }
        process_inlines(state.tokens[blkIdx].children, state);
      }
    };
    // Join raw text tokens with the rest of the text
      var text_join = function text_join(state) {
      var j, l, tokens, curr, max, last, blockTokens = state.tokens;
      for (j = 0, l = blockTokens.length; j < l; j++) {
        if (blockTokens[j].type !== "inline") continue;
        tokens = blockTokens[j].children;
        max = tokens.length;
        for (curr = 0; curr < max; curr++) {
          if (tokens[curr].type === "text_special") {
            tokens[curr].type = "text";
          }
        }
        for (curr = last = 0; curr < max; curr++) {
          if (tokens[curr].type === "text" && curr + 1 < max && tokens[curr + 1].type === "text") {
            // collapse two adjacent text nodes
            tokens[curr + 1].content = tokens[curr].content + tokens[curr + 1].content;
          } else {
            if (curr !== last) {
              tokens[last] = tokens[curr];
            }
            last++;
          }
        }
        if (curr !== last) {
          tokens.length = last;
        }
      }
    };
    // Token class
    /**
       * class Token
       **/
    /**
       * new Token(type, tag, nesting)
       *
       * Create new token and fill passed properties.
       **/  function Token(type, tag, nesting) {
      /**
         * Token#type -> String
         *
         * Type of the token (string, e.g. "paragraph_open")
         **/
      this.type = type;
      /**
         * Token#tag -> String
         *
         * html tag name, e.g. "p"
         **/    this.tag = tag;
      /**
         * Token#attrs -> Array
         *
         * Html attributes. Format: `[ [ name1, value1 ], [ name2, value2 ] ]`
         **/    this.attrs = null;
      /**
         * Token#map -> Array
         *
         * Source map info. Format: `[ line_begin, line_end ]`
         **/    this.map = null;
      /**
         * Token#nesting -> Number
         *
         * Level change (number in {-1, 0, 1} set), where:
         *
         * -  `1` means the tag is opening
         * -  `0` means the tag is self-closing
         * - `-1` means the tag is closing
         **/    this.nesting = nesting;
      /**
         * Token#level -> Number
         *
         * nesting level, the same as `state.level`
         **/    this.level = 0;
      /**
         * Token#children -> Array
         *
         * An array of child nodes (inline and img tokens)
         **/    this.children = null;
      /**
         * Token#content -> String
         *
         * In a case of self-closing tag (code, html, fence, etc.),
         * it has contents of this tag.
         **/    this.content = "";
      /**
         * Token#markup -> String
         *
         * '*' or '_' for emphasis, fence string for fence, etc.
         **/    this.markup = "";
      /**
         * Token#info -> String
         *
         * Additional information:
         *
         * - Info string for "fence" tokens
         * - The value "auto" for autolink "link_open" and "link_close" tokens
         * - The string value of the item marker for ordered-list "list_item_open" tokens
         **/    this.info = "";
      /**
         * Token#meta -> Object
         *
         * A place for plugins to store an arbitrary data
         **/    this.meta = null;
      /**
         * Token#block -> Boolean
         *
         * True for block-level tokens, false for inline tokens.
         * Used in renderer to calculate line breaks
         **/    this.block = false;
      /**
         * Token#hidden -> Boolean
         *
         * If it's true, ignore this element when rendering. Used for tight lists
         * to hide paragraphs.
         **/    this.hidden = false;
    }
    /**
       * Token.attrIndex(name) -> Number
       *
       * Search attribute index by name.
       **/  Token.prototype.attrIndex = function attrIndex(name) {
      var attrs, i, len;
      if (!this.attrs) {
        return -1;
      }
      attrs = this.attrs;
      for (i = 0, len = attrs.length; i < len; i++) {
        if (attrs[i][0] === name) {
          return i;
        }
      }
      return -1;
    };
    /**
       * Token.attrPush(attrData)
       *
       * Add `[ name, value ]` attribute to list. Init attrs if necessary
       **/  Token.prototype.attrPush = function attrPush(attrData) {
      if (this.attrs) {
        this.attrs.push(attrData);
      } else {
        this.attrs = [ attrData ];
      }
    };
    /**
       * Token.attrSet(name, value)
       *
       * Set `name` attribute to `value`. Override old value if exists.
       **/  Token.prototype.attrSet = function attrSet(name, value) {
      var idx = this.attrIndex(name), attrData = [ name, value ];
      if (idx < 0) {
        this.attrPush(attrData);
      } else {
        this.attrs[idx] = attrData;
      }
    };
    /**
       * Token.attrGet(name)
       *
       * Get the value of attribute `name`, or null if it does not exist.
       **/  Token.prototype.attrGet = function attrGet(name) {
      var idx = this.attrIndex(name), value = null;
      if (idx >= 0) {
        value = this.attrs[idx][1];
      }
      return value;
    };
    /**
       * Token.attrJoin(name, value)
       *
       * Join value to existing attribute via space. Or create new attribute if not
       * exists. Useful to operate with token classes.
       **/  Token.prototype.attrJoin = function attrJoin(name, value) {
      var idx = this.attrIndex(name);
      if (idx < 0) {
        this.attrPush([ name, value ]);
      } else {
        this.attrs[idx][1] = this.attrs[idx][1] + " " + value;
      }
    };
    var token = Token;
    function StateCore(src, md, env) {
      this.src = src;
      this.env = env;
      this.tokens = [];
      this.inlineMode = false;
      this.md = md;
   // link to parser instance
      }
    // re-export Token class to use in core rules
      StateCore.prototype.Token = token;
    var state_core = StateCore;
    var _rules$2 = [ [ "normalize", normalize ], [ "block", block ], [ "inline", inline ], [ "linkify", linkify$1 ], [ "replacements", replacements ], [ "smartquotes", smartquotes ], 
    // `text_join` finds `text_special` tokens (for escape sequences)
    // and joins them with the rest of the text
    [ "text_join", text_join ] ];
    /**
       * new Core()
       **/  function Core() {
      /**
         * Core#ruler -> Ruler
         *
         * [[Ruler]] instance. Keep configuration of core rules.
         **/
      this.ruler = new ruler;
      for (var i = 0; i < _rules$2.length; i++) {
        this.ruler.push(_rules$2[i][0], _rules$2[i][1]);
      }
    }
    /**
       * Core.process(state)
       *
       * Executes core chain rules.
       **/  Core.prototype.process = function(state) {
      var i, l, rules;
      rules = this.ruler.getRules("");
      for (i = 0, l = rules.length; i < l; i++) {
        rules[i](state);
      }
    };
    Core.prototype.State = state_core;
    var parser_core = Core;
    var isSpace$a = utils.isSpace;
    function getLine(state, line) {
      var pos = state.bMarks[line] + state.tShift[line], max = state.eMarks[line];
      return state.src.slice(pos, max);
    }
    function escapedSplit(str) {
      var result = [], pos = 0, max = str.length, ch, isEscaped = false, lastPos = 0, current = "";
      ch = str.charCodeAt(pos);
      while (pos < max) {
        if (ch === 124 /* | */) {
          if (!isEscaped) {
            // pipe separating cells, '|'
            result.push(current + str.substring(lastPos, pos));
            current = "";
            lastPos = pos + 1;
          } else {
            // escaped pipe, '\|'
            current += str.substring(lastPos, pos - 1);
            lastPos = pos;
          }
        }
        isEscaped = ch === 92 /* \ */;
        pos++;
        ch = str.charCodeAt(pos);
      }
      result.push(current + str.substring(lastPos));
      return result;
    }
    var table = function table(state, startLine, endLine, silent) {
      var ch, lineText, pos, i, l, nextLine, columns, columnCount, token, aligns, t, tableLines, tbodyLines, oldParentType, terminate, terminatorRules, firstCh, secondCh;
      // should have at least two lines
          if (startLine + 2 > endLine) {
        return false;
      }
      nextLine = startLine + 1;
      if (state.sCount[nextLine] < state.blkIndent) {
        return false;
      }
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[nextLine] - state.blkIndent >= 4) {
        return false;
      }
      // first character of the second line should be '|', '-', ':',
      // and no other characters are allowed but spaces;
      // basically, this is the equivalent of /^[-:|][-:|\s]*$/ regexp
          pos = state.bMarks[nextLine] + state.tShift[nextLine];
      if (pos >= state.eMarks[nextLine]) {
        return false;
      }
      firstCh = state.src.charCodeAt(pos++);
      if (firstCh !== 124 /* | */ && firstCh !== 45 /* - */ && firstCh !== 58 /* : */) {
        return false;
      }
      if (pos >= state.eMarks[nextLine]) {
        return false;
      }
      secondCh = state.src.charCodeAt(pos++);
      if (secondCh !== 124 /* | */ && secondCh !== 45 /* - */ && secondCh !== 58 /* : */ && !isSpace$a(secondCh)) {
        return false;
      }
      // if first character is '-', then second character must not be a space
      // (due to parsing ambiguity with list)
          if (firstCh === 45 /* - */ && isSpace$a(secondCh)) {
        return false;
      }
      while (pos < state.eMarks[nextLine]) {
        ch = state.src.charCodeAt(pos);
        if (ch !== 124 /* | */ && ch !== 45 /* - */ && ch !== 58 /* : */ && !isSpace$a(ch)) {
          return false;
        }
        pos++;
      }
      lineText = getLine(state, startLine + 1);
      columns = lineText.split("|");
      aligns = [];
      for (i = 0; i < columns.length; i++) {
        t = columns[i].trim();
        if (!t) {
          // allow empty columns before and after table, but not in between columns;
          // e.g. allow ` |---| `, disallow ` ---||--- `
          if (i === 0 || i === columns.length - 1) {
            continue;
          } else {
            return false;
          }
        }
        if (!/^:?-+:?$/.test(t)) {
          return false;
        }
        if (t.charCodeAt(t.length - 1) === 58 /* : */) {
          aligns.push(t.charCodeAt(0) === 58 /* : */ ? "center" : "right");
        } else if (t.charCodeAt(0) === 58 /* : */) {
          aligns.push("left");
        } else {
          aligns.push("");
        }
      }
      lineText = getLine(state, startLine).trim();
      if (lineText.indexOf("|") === -1) {
        return false;
      }
      if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      columns = escapedSplit(lineText);
      if (columns.length && columns[0] === "") columns.shift();
      if (columns.length && columns[columns.length - 1] === "") columns.pop();
      // header row will define an amount of columns in the entire table,
      // and align row should be exactly the same (the rest of the rows can differ)
          columnCount = columns.length;
      if (columnCount === 0 || columnCount !== aligns.length) {
        return false;
      }
      if (silent) {
        return true;
      }
      oldParentType = state.parentType;
      state.parentType = "table";
      // use 'blockquote' lists for termination because it's
      // the most similar to tables
          terminatorRules = state.md.block.ruler.getRules("blockquote");
      token = state.push("table_open", "table", 1);
      token.map = tableLines = [ startLine, 0 ];
      token = state.push("thead_open", "thead", 1);
      token.map = [ startLine, startLine + 1 ];
      token = state.push("tr_open", "tr", 1);
      token.map = [ startLine, startLine + 1 ];
      for (i = 0; i < columns.length; i++) {
        token = state.push("th_open", "th", 1);
        if (aligns[i]) {
          token.attrs = [ [ "style", "text-align:" + aligns[i] ] ];
        }
        token = state.push("inline", "", 0);
        token.content = columns[i].trim();
        token.children = [];
        token = state.push("th_close", "th", -1);
      }
      token = state.push("tr_close", "tr", -1);
      token = state.push("thead_close", "thead", -1);
      for (nextLine = startLine + 2; nextLine < endLine; nextLine++) {
        if (state.sCount[nextLine] < state.blkIndent) {
          break;
        }
        terminate = false;
        for (i = 0, l = terminatorRules.length; i < l; i++) {
          if (terminatorRules[i](state, nextLine, endLine, true)) {
            terminate = true;
            break;
          }
        }
        if (terminate) {
          break;
        }
        lineText = getLine(state, nextLine).trim();
        if (!lineText) {
          break;
        }
        if (state.sCount[nextLine] - state.blkIndent >= 4) {
          break;
        }
        columns = escapedSplit(lineText);
        if (columns.length && columns[0] === "") columns.shift();
        if (columns.length && columns[columns.length - 1] === "") columns.pop();
        if (nextLine === startLine + 2) {
          token = state.push("tbody_open", "tbody", 1);
          token.map = tbodyLines = [ startLine + 2, 0 ];
        }
        token = state.push("tr_open", "tr", 1);
        token.map = [ nextLine, nextLine + 1 ];
        for (i = 0; i < columnCount; i++) {
          token = state.push("td_open", "td", 1);
          if (aligns[i]) {
            token.attrs = [ [ "style", "text-align:" + aligns[i] ] ];
          }
          token = state.push("inline", "", 0);
          token.content = columns[i] ? columns[i].trim() : "";
          token.children = [];
          token = state.push("td_close", "td", -1);
        }
        token = state.push("tr_close", "tr", -1);
      }
      if (tbodyLines) {
        token = state.push("tbody_close", "tbody", -1);
        tbodyLines[1] = nextLine;
      }
      token = state.push("table_close", "table", -1);
      tableLines[1] = nextLine;
      state.parentType = oldParentType;
      state.line = nextLine;
      return true;
    };
    // Code block (4 spaces padded)
      var code = function code(state, startLine, endLine /*, silent*/) {
      var nextLine, last, token;
      if (state.sCount[startLine] - state.blkIndent < 4) {
        return false;
      }
      last = nextLine = startLine + 1;
      while (nextLine < endLine) {
        if (state.isEmpty(nextLine)) {
          nextLine++;
          continue;
        }
        if (state.sCount[nextLine] - state.blkIndent >= 4) {
          nextLine++;
          last = nextLine;
          continue;
        }
        break;
      }
      state.line = last;
      token = state.push("code_block", "code", 0);
      token.content = state.getLines(startLine, last, 4 + state.blkIndent, false) + "\n";
      token.map = [ startLine, state.line ];
      return true;
    };
    // fences (``` lang, ~~~ lang)
      var fence = function fence(state, startLine, endLine, silent) {
      var marker, len, params, nextLine, mem, token, markup, haveEndMarker = false, pos = state.bMarks[startLine] + state.tShift[startLine], max = state.eMarks[startLine];
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      if (pos + 3 > max) {
        return false;
      }
      marker = state.src.charCodeAt(pos);
      if (marker !== 126 /* ~ */ && marker !== 96 /* ` */) {
        return false;
      }
      // scan marker length
          mem = pos;
      pos = state.skipChars(pos, marker);
      len = pos - mem;
      if (len < 3) {
        return false;
      }
      markup = state.src.slice(mem, pos);
      params = state.src.slice(pos, max);
      if (marker === 96 /* ` */) {
        if (params.indexOf(String.fromCharCode(marker)) >= 0) {
          return false;
        }
      }
      // Since start is found, we can report success here in validation mode
          if (silent) {
        return true;
      }
      // search end of block
          nextLine = startLine;
      for (;;) {
        nextLine++;
        if (nextLine >= endLine) {
          // unclosed block should be autoclosed by end of document.
          // also block seems to be autoclosed by end of parent
          break;
        }
        pos = mem = state.bMarks[nextLine] + state.tShift[nextLine];
        max = state.eMarks[nextLine];
        if (pos < max && state.sCount[nextLine] < state.blkIndent) {
          // non-empty line with negative indent should stop the list:
          // - ```
          //  test
          break;
        }
        if (state.src.charCodeAt(pos) !== marker) {
          continue;
        }
        if (state.sCount[nextLine] - state.blkIndent >= 4) {
          // closing fence should be indented less than 4 spaces
          continue;
        }
        pos = state.skipChars(pos, marker);
        // closing code fence must be at least as long as the opening one
              if (pos - mem < len) {
          continue;
        }
        // make sure tail has spaces only
              pos = state.skipSpaces(pos);
        if (pos < max) {
          continue;
        }
        haveEndMarker = true;
        // found!
              break;
      }
      // If a fence has heading spaces, they should be removed from its inner block
          len = state.sCount[startLine];
      state.line = nextLine + (haveEndMarker ? 1 : 0);
      token = state.push("fence", "code", 0);
      token.info = params;
      token.content = state.getLines(startLine + 1, nextLine, len, true);
      token.markup = markup;
      token.map = [ startLine, state.line ];
      return true;
    };
    var isSpace$9 = utils.isSpace;
    var blockquote = function blockquote(state, startLine, endLine, silent) {
      var adjustTab, ch, i, initial, l, lastLineEmpty, lines, nextLine, offset, oldBMarks, oldBSCount, oldIndent, oldParentType, oldSCount, oldTShift, spaceAfterMarker, terminate, terminatorRules, token, isOutdented, oldLineMax = state.lineMax, pos = state.bMarks[startLine] + state.tShift[startLine], max = state.eMarks[startLine];
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      // check the block quote marker
          if (state.src.charCodeAt(pos++) !== 62 /* > */) {
        return false;
      }
      // we know that it's going to be a valid blockquote,
      // so no point trying to find the end of it in silent mode
          if (silent) {
        return true;
      }
      // set offset past spaces and ">"
          initial = offset = state.sCount[startLine] + 1;
      // skip one optional space after '>'
          if (state.src.charCodeAt(pos) === 32 /* space */) {
        // ' >   test '
        //     ^ -- position start of line here:
        pos++;
        initial++;
        offset++;
        adjustTab = false;
        spaceAfterMarker = true;
      } else if (state.src.charCodeAt(pos) === 9 /* tab */) {
        spaceAfterMarker = true;
        if ((state.bsCount[startLine] + offset) % 4 === 3) {
          // '  >\t  test '
          //       ^ -- position start of line here (tab has width===1)
          pos++;
          initial++;
          offset++;
          adjustTab = false;
        } else {
          // ' >\t  test '
          //    ^ -- position start of line here + shift bsCount slightly
          //         to make extra space appear
          adjustTab = true;
        }
      } else {
        spaceAfterMarker = false;
      }
      oldBMarks = [ state.bMarks[startLine] ];
      state.bMarks[startLine] = pos;
      while (pos < max) {
        ch = state.src.charCodeAt(pos);
        if (isSpace$9(ch)) {
          if (ch === 9) {
            offset += 4 - (offset + state.bsCount[startLine] + (adjustTab ? 1 : 0)) % 4;
          } else {
            offset++;
          }
        } else {
          break;
        }
        pos++;
      }
      oldBSCount = [ state.bsCount[startLine] ];
      state.bsCount[startLine] = state.sCount[startLine] + 1 + (spaceAfterMarker ? 1 : 0);
      lastLineEmpty = pos >= max;
      oldSCount = [ state.sCount[startLine] ];
      state.sCount[startLine] = offset - initial;
      oldTShift = [ state.tShift[startLine] ];
      state.tShift[startLine] = pos - state.bMarks[startLine];
      terminatorRules = state.md.block.ruler.getRules("blockquote");
      oldParentType = state.parentType;
      state.parentType = "blockquote";
      // Search the end of the block
      
      // Block ends with either:
      //  1. an empty line outside:
      //     ```
      //     > test
      
      //     ```
      //  2. an empty line inside:
      //     ```
      //     >
      //     test
      //     ```
      //  3. another tag:
      //     ```
      //     > test
      //      - - -
      //     ```
          for (nextLine = startLine + 1; nextLine < endLine; nextLine++) {
        // check if it's outdented, i.e. it's inside list item and indented
        // less than said list item:
        // ```
        // 1. anything
        //    > current blockquote
        // 2. checking this line
        // ```
        isOutdented = state.sCount[nextLine] < state.blkIndent;
        pos = state.bMarks[nextLine] + state.tShift[nextLine];
        max = state.eMarks[nextLine];
        if (pos >= max) {
          // Case 1: line is not inside the blockquote, and this line is empty.
          break;
        }
        if (state.src.charCodeAt(pos++) === 62 /* > */ && !isOutdented) {
          // This line is inside the blockquote.
          // set offset past spaces and ">"
          initial = offset = state.sCount[nextLine] + 1;
          // skip one optional space after '>'
                  if (state.src.charCodeAt(pos) === 32 /* space */) {
            // ' >   test '
            //     ^ -- position start of line here:
            pos++;
            initial++;
            offset++;
            adjustTab = false;
            spaceAfterMarker = true;
          } else if (state.src.charCodeAt(pos) === 9 /* tab */) {
            spaceAfterMarker = true;
            if ((state.bsCount[nextLine] + offset) % 4 === 3) {
              // '  >\t  test '
              //       ^ -- position start of line here (tab has width===1)
              pos++;
              initial++;
              offset++;
              adjustTab = false;
            } else {
              // ' >\t  test '
              //    ^ -- position start of line here + shift bsCount slightly
              //         to make extra space appear
              adjustTab = true;
            }
          } else {
            spaceAfterMarker = false;
          }
          oldBMarks.push(state.bMarks[nextLine]);
          state.bMarks[nextLine] = pos;
          while (pos < max) {
            ch = state.src.charCodeAt(pos);
            if (isSpace$9(ch)) {
              if (ch === 9) {
                offset += 4 - (offset + state.bsCount[nextLine] + (adjustTab ? 1 : 0)) % 4;
              } else {
                offset++;
              }
            } else {
              break;
            }
            pos++;
          }
          lastLineEmpty = pos >= max;
          oldBSCount.push(state.bsCount[nextLine]);
          state.bsCount[nextLine] = state.sCount[nextLine] + 1 + (spaceAfterMarker ? 1 : 0);
          oldSCount.push(state.sCount[nextLine]);
          state.sCount[nextLine] = offset - initial;
          oldTShift.push(state.tShift[nextLine]);
          state.tShift[nextLine] = pos - state.bMarks[nextLine];
          continue;
        }
        // Case 2: line is not inside the blockquote, and the last line was empty.
              if (lastLineEmpty) {
          break;
        }
        // Case 3: another tag found.
              terminate = false;
        for (i = 0, l = terminatorRules.length; i < l; i++) {
          if (terminatorRules[i](state, nextLine, endLine, true)) {
            terminate = true;
            break;
          }
        }
        if (terminate) {
          // Quirk to enforce "hard termination mode" for paragraphs;
          // normally if you call `tokenize(state, startLine, nextLine)`,
          // paragraphs will look below nextLine for paragraph continuation,
          // but if blockquote is terminated by another tag, they shouldn't
          state.lineMax = nextLine;
          if (state.blkIndent !== 0) {
            // state.blkIndent was non-zero, we now set it to zero,
            // so we need to re-calculate all offsets to appear as
            // if indent wasn't changed
            oldBMarks.push(state.bMarks[nextLine]);
            oldBSCount.push(state.bsCount[nextLine]);
            oldTShift.push(state.tShift[nextLine]);
            oldSCount.push(state.sCount[nextLine]);
            state.sCount[nextLine] -= state.blkIndent;
          }
          break;
        }
        oldBMarks.push(state.bMarks[nextLine]);
        oldBSCount.push(state.bsCount[nextLine]);
        oldTShift.push(state.tShift[nextLine]);
        oldSCount.push(state.sCount[nextLine]);
        // A negative indentation means that this is a paragraph continuation
        
              state.sCount[nextLine] = -1;
      }
      oldIndent = state.blkIndent;
      state.blkIndent = 0;
      token = state.push("blockquote_open", "blockquote", 1);
      token.markup = ">";
      token.map = lines = [ startLine, 0 ];
      state.md.block.tokenize(state, startLine, nextLine);
      token = state.push("blockquote_close", "blockquote", -1);
      token.markup = ">";
      state.lineMax = oldLineMax;
      state.parentType = oldParentType;
      lines[1] = state.line;
      // Restore original tShift; this might not be necessary since the parser
      // has already been here, but just to make sure we can do that.
          for (i = 0; i < oldTShift.length; i++) {
        state.bMarks[i + startLine] = oldBMarks[i];
        state.tShift[i + startLine] = oldTShift[i];
        state.sCount[i + startLine] = oldSCount[i];
        state.bsCount[i + startLine] = oldBSCount[i];
      }
      state.blkIndent = oldIndent;
      return true;
    };
    var isSpace$8 = utils.isSpace;
    var hr = function hr(state, startLine, endLine, silent) {
      var marker, cnt, ch, token, pos = state.bMarks[startLine] + state.tShift[startLine], max = state.eMarks[startLine];
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      marker = state.src.charCodeAt(pos++);
      // Check hr marker
          if (marker !== 42 /* * */ && marker !== 45 /* - */ && marker !== 95 /* _ */) {
        return false;
      }
      // markers can be mixed with spaces, but there should be at least 3 of them
          cnt = 1;
      while (pos < max) {
        ch = state.src.charCodeAt(pos++);
        if (ch !== marker && !isSpace$8(ch)) {
          return false;
        }
        if (ch === marker) {
          cnt++;
        }
      }
      if (cnt < 3) {
        return false;
      }
      if (silent) {
        return true;
      }
      state.line = startLine + 1;
      token = state.push("hr", "hr", 0);
      token.map = [ startLine, state.line ];
      token.markup = Array(cnt + 1).join(String.fromCharCode(marker));
      return true;
    };
    var isSpace$7 = utils.isSpace;
    // Search `[-+*][\n ]`, returns next pos after marker on success
    // or -1 on fail.
      function skipBulletListMarker(state, startLine) {
      var marker, pos, max, ch;
      pos = state.bMarks[startLine] + state.tShift[startLine];
      max = state.eMarks[startLine];
      marker = state.src.charCodeAt(pos++);
      // Check bullet
          if (marker !== 42 /* * */ && marker !== 45 /* - */ && marker !== 43 /* + */) {
        return -1;
      }
      if (pos < max) {
        ch = state.src.charCodeAt(pos);
        if (!isSpace$7(ch)) {
          // " -test " - is not a list item
          return -1;
        }
      }
      return pos;
    }
    // Search `\d+[.)][\n ]`, returns next pos after marker on success
    // or -1 on fail.
      function skipOrderedListMarker(state, startLine) {
      var ch, start = state.bMarks[startLine] + state.tShift[startLine], pos = start, max = state.eMarks[startLine];
      // List marker should have at least 2 chars (digit + dot)
          if (pos + 1 >= max) {
        return -1;
      }
      ch = state.src.charCodeAt(pos++);
      if (ch < 48 /* 0 */ || ch > 57 /* 9 */) {
        return -1;
      }
      for (;;) {
        // EOL -> fail
        if (pos >= max) {
          return -1;
        }
        ch = state.src.charCodeAt(pos++);
        if (ch >= 48 /* 0 */ && ch <= 57 /* 9 */) {
          // List marker should have no more than 9 digits
          // (prevents integer overflow in browsers)
          if (pos - start >= 10) {
            return -1;
          }
          continue;
        }
        // found valid marker
              if (ch === 41 /* ) */ || ch === 46 /* . */) {
          break;
        }
        return -1;
      }
      if (pos < max) {
        ch = state.src.charCodeAt(pos);
        if (!isSpace$7(ch)) {
          // " 1.test " - is not a list item
          return -1;
        }
      }
      return pos;
    }
    function markTightParagraphs(state, idx) {
      var i, l, level = state.level + 2;
      for (i = idx + 2, l = state.tokens.length - 2; i < l; i++) {
        if (state.tokens[i].level === level && state.tokens[i].type === "paragraph_open") {
          state.tokens[i + 2].hidden = true;
          state.tokens[i].hidden = true;
          i += 2;
        }
      }
    }
    var list = function list(state, startLine, endLine, silent) {
      var ch, contentStart, i, indent, indentAfterMarker, initial, isOrdered, itemLines, l, listLines, listTokIdx, markerCharCode, markerValue, max, nextLine, offset, oldListIndent, oldParentType, oldSCount, oldTShift, oldTight, pos, posAfterMarker, prevEmptyEnd, start, terminate, terminatorRules, token, isTerminatingParagraph = false, tight = true;
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      // Special case:
      //  - item 1
      //   - item 2
      //    - item 3
      //     - item 4
      //      - this one is a paragraph continuation
          if (state.listIndent >= 0 && state.sCount[startLine] - state.listIndent >= 4 && state.sCount[startLine] < state.blkIndent) {
        return false;
      }
      // limit conditions when list can interrupt
      // a paragraph (validation mode only)
          if (silent && state.parentType === "paragraph") {
        // Next list item should still terminate previous list item;
        // This code can fail if plugins use blkIndent as well as lists,
        // but I hope the spec gets fixed long before that happens.
        if (state.sCount[startLine] >= state.blkIndent) {
          isTerminatingParagraph = true;
        }
      }
      // Detect list type and position after marker
          if ((posAfterMarker = skipOrderedListMarker(state, startLine)) >= 0) {
        isOrdered = true;
        start = state.bMarks[startLine] + state.tShift[startLine];
        markerValue = Number(state.src.slice(start, posAfterMarker - 1));
        // If we're starting a new ordered list right after
        // a paragraph, it should start with 1.
              if (isTerminatingParagraph && markerValue !== 1) return false;
      } else if ((posAfterMarker = skipBulletListMarker(state, startLine)) >= 0) {
        isOrdered = false;
      } else {
        return false;
      }
      // If we're starting a new unordered list right after
      // a paragraph, first line should not be empty.
          if (isTerminatingParagraph) {
        if (state.skipSpaces(posAfterMarker) >= state.eMarks[startLine]) return false;
      }
      // We should terminate list on style change. Remember first one to compare.
          markerCharCode = state.src.charCodeAt(posAfterMarker - 1);
      // For validation mode we can terminate immediately
          if (silent) {
        return true;
      }
      // Start list
          listTokIdx = state.tokens.length;
      if (isOrdered) {
        token = state.push("ordered_list_open", "ol", 1);
        if (markerValue !== 1) {
          token.attrs = [ [ "start", markerValue ] ];
        }
      } else {
        token = state.push("bullet_list_open", "ul", 1);
      }
      token.map = listLines = [ startLine, 0 ];
      token.markup = String.fromCharCode(markerCharCode);
      
      // Iterate list items
      
          nextLine = startLine;
      prevEmptyEnd = false;
      terminatorRules = state.md.block.ruler.getRules("list");
      oldParentType = state.parentType;
      state.parentType = "list";
      while (nextLine < endLine) {
        pos = posAfterMarker;
        max = state.eMarks[nextLine];
        initial = offset = state.sCount[nextLine] + posAfterMarker - (state.bMarks[startLine] + state.tShift[startLine]);
        while (pos < max) {
          ch = state.src.charCodeAt(pos);
          if (ch === 9) {
            offset += 4 - (offset + state.bsCount[nextLine]) % 4;
          } else if (ch === 32) {
            offset++;
          } else {
            break;
          }
          pos++;
        }
        contentStart = pos;
        if (contentStart >= max) {
          // trimming space in "-    \n  3" case, indent is 1 here
          indentAfterMarker = 1;
        } else {
          indentAfterMarker = offset - initial;
        }
        // If we have more than 4 spaces, the indent is 1
        // (the rest is just indented code block)
              if (indentAfterMarker > 4) {
          indentAfterMarker = 1;
        }
        // "  -  test"
        //  ^^^^^ - calculating total length of this thing
              indent = initial + indentAfterMarker;
        // Run subparser & write tokens
              token = state.push("list_item_open", "li", 1);
        token.markup = String.fromCharCode(markerCharCode);
        token.map = itemLines = [ startLine, 0 ];
        if (isOrdered) {
          token.info = state.src.slice(start, posAfterMarker - 1);
        }
        // change current state, then restore it after parser subcall
              oldTight = state.tight;
        oldTShift = state.tShift[startLine];
        oldSCount = state.sCount[startLine];
        //  - example list
        // ^ listIndent position will be here
        //   ^ blkIndent position will be here
        
              oldListIndent = state.listIndent;
        state.listIndent = state.blkIndent;
        state.blkIndent = indent;
        state.tight = true;
        state.tShift[startLine] = contentStart - state.bMarks[startLine];
        state.sCount[startLine] = offset;
        if (contentStart >= max && state.isEmpty(startLine + 1)) {
          // workaround for this case
          // (list item is empty, list terminates before "foo"):
          // ~~~~~~~~
          //   -
          //     foo
          // ~~~~~~~~
          state.line = Math.min(state.line + 2, endLine);
        } else {
          state.md.block.tokenize(state, startLine, endLine, true);
        }
        // If any of list item is tight, mark list as tight
              if (!state.tight || prevEmptyEnd) {
          tight = false;
        }
        // Item become loose if finish with empty line,
        // but we should filter last element, because it means list finish
              prevEmptyEnd = state.line - startLine > 1 && state.isEmpty(state.line - 1);
        state.blkIndent = state.listIndent;
        state.listIndent = oldListIndent;
        state.tShift[startLine] = oldTShift;
        state.sCount[startLine] = oldSCount;
        state.tight = oldTight;
        token = state.push("list_item_close", "li", -1);
        token.markup = String.fromCharCode(markerCharCode);
        nextLine = startLine = state.line;
        itemLines[1] = nextLine;
        contentStart = state.bMarks[startLine];
        if (nextLine >= endLine) {
          break;
        }
        
        // Try to check if list is terminated or continued.
        
              if (state.sCount[nextLine] < state.blkIndent) {
          break;
        }
        // if it's indented more than 3 spaces, it should be a code block
              if (state.sCount[startLine] - state.blkIndent >= 4) {
          break;
        }
        // fail if terminating block found
              terminate = false;
        for (i = 0, l = terminatorRules.length; i < l; i++) {
          if (terminatorRules[i](state, nextLine, endLine, true)) {
            terminate = true;
            break;
          }
        }
        if (terminate) {
          break;
        }
        // fail if list has another type
              if (isOrdered) {
          posAfterMarker = skipOrderedListMarker(state, nextLine);
          if (posAfterMarker < 0) {
            break;
          }
          start = state.bMarks[nextLine] + state.tShift[nextLine];
        } else {
          posAfterMarker = skipBulletListMarker(state, nextLine);
          if (posAfterMarker < 0) {
            break;
          }
        }
        if (markerCharCode !== state.src.charCodeAt(posAfterMarker - 1)) {
          break;
        }
      }
      // Finalize list
          if (isOrdered) {
        token = state.push("ordered_list_close", "ol", -1);
      } else {
        token = state.push("bullet_list_close", "ul", -1);
      }
      token.markup = String.fromCharCode(markerCharCode);
      listLines[1] = nextLine;
      state.line = nextLine;
      state.parentType = oldParentType;
      // mark paragraphs tight if needed
          if (tight) {
        markTightParagraphs(state, listTokIdx);
      }
      return true;
    };
    var normalizeReference$2 = utils.normalizeReference;
    var isSpace$6 = utils.isSpace;
    var reference = function reference(state, startLine, _endLine, silent) {
      var ch, destEndPos, destEndLineNo, endLine, href, i, l, label, labelEnd, oldParentType, res, start, str, terminate, terminatorRules, title, lines = 0, pos = state.bMarks[startLine] + state.tShift[startLine], max = state.eMarks[startLine], nextLine = startLine + 1;
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      if (state.src.charCodeAt(pos) !== 91 /* [ */) {
        return false;
      }
      // Simple check to quickly interrupt scan on [link](url) at the start of line.
      // Can be useful on practice: https://github.com/markdown-it/markdown-it/issues/54
          while (++pos < max) {
        if (state.src.charCodeAt(pos) === 93 /* ] */ && state.src.charCodeAt(pos - 1) !== 92 /* \ */) {
          if (pos + 1 === max) {
            return false;
          }
          if (state.src.charCodeAt(pos + 1) !== 58 /* : */) {
            return false;
          }
          break;
        }
      }
      endLine = state.lineMax;
      // jump line-by-line until empty one or EOF
          terminatorRules = state.md.block.ruler.getRules("reference");
      oldParentType = state.parentType;
      state.parentType = "reference";
      for (;nextLine < endLine && !state.isEmpty(nextLine); nextLine++) {
        // this would be a code block normally, but after paragraph
        // it's considered a lazy continuation regardless of what's there
        if (state.sCount[nextLine] - state.blkIndent > 3) {
          continue;
        }
        // quirk for blockquotes, this line should already be checked by that rule
              if (state.sCount[nextLine] < 0) {
          continue;
        }
        // Some tags can terminate paragraph without empty line.
              terminate = false;
        for (i = 0, l = terminatorRules.length; i < l; i++) {
          if (terminatorRules[i](state, nextLine, endLine, true)) {
            terminate = true;
            break;
          }
        }
        if (terminate) {
          break;
        }
      }
      str = state.getLines(startLine, nextLine, state.blkIndent, false).trim();
      max = str.length;
      for (pos = 1; pos < max; pos++) {
        ch = str.charCodeAt(pos);
        if (ch === 91 /* [ */) {
          return false;
        } else if (ch === 93 /* ] */) {
          labelEnd = pos;
          break;
        } else if (ch === 10 /* \n */) {
          lines++;
        } else if (ch === 92 /* \ */) {
          pos++;
          if (pos < max && str.charCodeAt(pos) === 10) {
            lines++;
          }
        }
      }
      if (labelEnd < 0 || str.charCodeAt(labelEnd + 1) !== 58 /* : */) {
        return false;
      }
      // [label]:   destination   'title'
      //         ^^^ skip optional whitespace here
          for (pos = labelEnd + 2; pos < max; pos++) {
        ch = str.charCodeAt(pos);
        if (ch === 10) {
          lines++;
        } else if (isSpace$6(ch)) ; else {
          break;
        }
      }
      // [label]:   destination   'title'
      //            ^^^^^^^^^^^ parse this
          res = state.md.helpers.parseLinkDestination(str, pos, max);
      if (!res.ok) {
        return false;
      }
      href = state.md.normalizeLink(res.str);
      if (!state.md.validateLink(href)) {
        return false;
      }
      pos = res.pos;
      lines += res.lines;
      // save cursor state, we could require to rollback later
          destEndPos = pos;
      destEndLineNo = lines;
      // [label]:   destination   'title'
      //                       ^^^ skipping those spaces
          start = pos;
      for (;pos < max; pos++) {
        ch = str.charCodeAt(pos);
        if (ch === 10) {
          lines++;
        } else if (isSpace$6(ch)) ; else {
          break;
        }
      }
      // [label]:   destination   'title'
      //                          ^^^^^^^ parse this
          res = state.md.helpers.parseLinkTitle(str, pos, max);
      if (pos < max && start !== pos && res.ok) {
        title = res.str;
        pos = res.pos;
        lines += res.lines;
      } else {
        title = "";
        pos = destEndPos;
        lines = destEndLineNo;
      }
      // skip trailing spaces until the rest of the line
          while (pos < max) {
        ch = str.charCodeAt(pos);
        if (!isSpace$6(ch)) {
          break;
        }
        pos++;
      }
      if (pos < max && str.charCodeAt(pos) !== 10) {
        if (title) {
          // garbage at the end of the line after title,
          // but it could still be a valid reference if we roll back
          title = "";
          pos = destEndPos;
          lines = destEndLineNo;
          while (pos < max) {
            ch = str.charCodeAt(pos);
            if (!isSpace$6(ch)) {
              break;
            }
            pos++;
          }
        }
      }
      if (pos < max && str.charCodeAt(pos) !== 10) {
        // garbage at the end of the line
        return false;
      }
      label = normalizeReference$2(str.slice(1, labelEnd));
      if (!label) {
        // CommonMark 0.20 disallows empty labels
        return false;
      }
      // Reference can not terminate anything. This check is for safety only.
      /*istanbul ignore if*/    if (silent) {
        return true;
      }
      if (typeof state.env.references === "undefined") {
        state.env.references = {};
      }
      if (typeof state.env.references[label] === "undefined") {
        state.env.references[label] = {
          title: title,
          href: href
        };
      }
      state.parentType = oldParentType;
      state.line = startLine + lines + 1;
      return true;
    };
    // List of valid html blocks names, accorting to commonmark spec
      var html_blocks = [ "address", "article", "aside", "base", "basefont", "blockquote", "body", "caption", "center", "col", "colgroup", "dd", "details", "dialog", "dir", "div", "dl", "dt", "fieldset", "figcaption", "figure", "footer", "form", "frame", "frameset", "h1", "h2", "h3", "h4", "h5", "h6", "head", "header", "hr", "html", "iframe", "legend", "li", "link", "main", "menu", "menuitem", "nav", "noframes", "ol", "optgroup", "option", "p", "param", "section", "source", "summary", "table", "tbody", "td", "tfoot", "th", "thead", "title", "tr", "track", "ul" ];
    // Regexps to match html elements
      var attr_name = "[a-zA-Z_:][a-zA-Z0-9:._-]*";
    var unquoted = "[^\"'=<>`\\x00-\\x20]+";
    var single_quoted = "'[^']*'";
    var double_quoted = '"[^"]*"';
    var attr_value = "(?:" + unquoted + "|" + single_quoted + "|" + double_quoted + ")";
    var attribute = "(?:\\s+" + attr_name + "(?:\\s*=\\s*" + attr_value + ")?)";
    var open_tag = "<[A-Za-z][A-Za-z0-9\\-]*" + attribute + "*\\s*\\/?>";
    var close_tag = "<\\/[A-Za-z][A-Za-z0-9\\-]*\\s*>";
    var comment = "\x3c!----\x3e|\x3c!--(?:-?[^>-])(?:-?[^-])*--\x3e";
    var processing = "<[?][\\s\\S]*?[?]>";
    var declaration = "<![A-Z]+\\s+[^>]*>";
    var cdata = "<!\\[CDATA\\[[\\s\\S]*?\\]\\]>";
    var HTML_TAG_RE$1 = new RegExp("^(?:" + open_tag + "|" + close_tag + "|" + comment + "|" + processing + "|" + declaration + "|" + cdata + ")");
    var HTML_OPEN_CLOSE_TAG_RE$1 = new RegExp("^(?:" + open_tag + "|" + close_tag + ")");
    var HTML_TAG_RE_1 = HTML_TAG_RE$1;
    var HTML_OPEN_CLOSE_TAG_RE_1 = HTML_OPEN_CLOSE_TAG_RE$1;
    var html_re = {
      HTML_TAG_RE: HTML_TAG_RE_1,
      HTML_OPEN_CLOSE_TAG_RE: HTML_OPEN_CLOSE_TAG_RE_1
    };
    var HTML_OPEN_CLOSE_TAG_RE = html_re.HTML_OPEN_CLOSE_TAG_RE;
    // An array of opening and corresponding closing sequences for html tags,
    // last argument defines whether it can terminate a paragraph or not
    
      var HTML_SEQUENCES = [ [ /^<(script|pre|style|textarea)(?=(\s|>|$))/i, /<\/(script|pre|style|textarea)>/i, true ], [ /^<!--/, /-->/, true ], [ /^<\?/, /\?>/, true ], [ /^<![A-Z]/, />/, true ], [ /^<!\[CDATA\[/, /\]\]>/, true ], [ new RegExp("^</?(" + html_blocks.join("|") + ")(?=(\\s|/?>|$))", "i"), /^$/, true ], [ new RegExp(HTML_OPEN_CLOSE_TAG_RE.source + "\\s*$"), /^$/, false ] ];
    var html_block = function html_block(state, startLine, endLine, silent) {
      var i, nextLine, token, lineText, pos = state.bMarks[startLine] + state.tShift[startLine], max = state.eMarks[startLine];
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      if (!state.md.options.html) {
        return false;
      }
      if (state.src.charCodeAt(pos) !== 60 /* < */) {
        return false;
      }
      lineText = state.src.slice(pos, max);
      for (i = 0; i < HTML_SEQUENCES.length; i++) {
        if (HTML_SEQUENCES[i][0].test(lineText)) {
          break;
        }
      }
      if (i === HTML_SEQUENCES.length) {
        return false;
      }
      if (silent) {
        // true if this sequence can be a terminator, false otherwise
        return HTML_SEQUENCES[i][2];
      }
      nextLine = startLine + 1;
      // If we are here - we detected HTML block.
      // Let's roll down till block end.
          if (!HTML_SEQUENCES[i][1].test(lineText)) {
        for (;nextLine < endLine; nextLine++) {
          if (state.sCount[nextLine] < state.blkIndent) {
            break;
          }
          pos = state.bMarks[nextLine] + state.tShift[nextLine];
          max = state.eMarks[nextLine];
          lineText = state.src.slice(pos, max);
          if (HTML_SEQUENCES[i][1].test(lineText)) {
            if (lineText.length !== 0) {
              nextLine++;
            }
            break;
          }
        }
      }
      state.line = nextLine;
      token = state.push("html_block", "", 0);
      token.map = [ startLine, nextLine ];
      token.content = state.getLines(startLine, nextLine, state.blkIndent, true);
      return true;
    };
    var isSpace$5 = utils.isSpace;
    var heading = function heading(state, startLine, endLine, silent) {
      var ch, level, tmp, token, pos = state.bMarks[startLine] + state.tShift[startLine], max = state.eMarks[startLine];
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      ch = state.src.charCodeAt(pos);
      if (ch !== 35 /* # */ || pos >= max) {
        return false;
      }
      // count heading level
          level = 1;
      ch = state.src.charCodeAt(++pos);
      while (ch === 35 /* # */ && pos < max && level <= 6) {
        level++;
        ch = state.src.charCodeAt(++pos);
      }
      if (level > 6 || pos < max && !isSpace$5(ch)) {
        return false;
      }
      if (silent) {
        return true;
      }
      // Let's cut tails like '    ###  ' from the end of string
          max = state.skipSpacesBack(max, pos);
      tmp = state.skipCharsBack(max, 35, pos);
   // #
          if (tmp > pos && isSpace$5(state.src.charCodeAt(tmp - 1))) {
        max = tmp;
      }
      state.line = startLine + 1;
      token = state.push("heading_open", "h" + String(level), 1);
      token.markup = "########".slice(0, level);
      token.map = [ startLine, state.line ];
      token = state.push("inline", "", 0);
      token.content = state.src.slice(pos, max).trim();
      token.map = [ startLine, state.line ];
      token.children = [];
      token = state.push("heading_close", "h" + String(level), -1);
      token.markup = "########".slice(0, level);
      return true;
    };
    // lheading (---, ===)
      var lheading = function lheading(state, startLine, endLine /*, silent*/) {
      var content, terminate, i, l, token, pos, max, level, marker, nextLine = startLine + 1, oldParentType, terminatorRules = state.md.block.ruler.getRules("paragraph");
      // if it's indented more than 3 spaces, it should be a code block
          if (state.sCount[startLine] - state.blkIndent >= 4) {
        return false;
      }
      oldParentType = state.parentType;
      state.parentType = "paragraph";
   // use paragraph to match terminatorRules
      // jump line-by-line until empty one or EOF
          for (;nextLine < endLine && !state.isEmpty(nextLine); nextLine++) {
        // this would be a code block normally, but after paragraph
        // it's considered a lazy continuation regardless of what's there
        if (state.sCount[nextLine] - state.blkIndent > 3) {
          continue;
        }
        
        // Check for underline in setext header
        
              if (state.sCount[nextLine] >= state.blkIndent) {
          pos = state.bMarks[nextLine] + state.tShift[nextLine];
          max = state.eMarks[nextLine];
          if (pos < max) {
            marker = state.src.charCodeAt(pos);
            if (marker === 45 /* - */ || marker === 61 /* = */) {
              pos = state.skipChars(pos, marker);
              pos = state.skipSpaces(pos);
              if (pos >= max) {
                level = marker === 61 /* = */ ? 1 : 2;
                break;
              }
            }
          }
        }
        // quirk for blockquotes, this line should already be checked by that rule
              if (state.sCount[nextLine] < 0) {
          continue;
        }
        // Some tags can terminate paragraph without empty line.
              terminate = false;
        for (i = 0, l = terminatorRules.length; i < l; i++) {
          if (terminatorRules[i](state, nextLine, endLine, true)) {
            terminate = true;
            break;
          }
        }
        if (terminate) {
          break;
        }
      }
      if (!level) {
        // Didn't find valid underline
        return false;
      }
      content = state.getLines(startLine, nextLine, state.blkIndent, false).trim();
      state.line = nextLine + 1;
      token = state.push("heading_open", "h" + String(level), 1);
      token.markup = String.fromCharCode(marker);
      token.map = [ startLine, state.line ];
      token = state.push("inline", "", 0);
      token.content = content;
      token.map = [ startLine, state.line - 1 ];
      token.children = [];
      token = state.push("heading_close", "h" + String(level), -1);
      token.markup = String.fromCharCode(marker);
      state.parentType = oldParentType;
      return true;
    };
    // Paragraph
      var paragraph = function paragraph(state, startLine /*, endLine*/) {
      var content, terminate, i, l, token, oldParentType, nextLine = startLine + 1, terminatorRules = state.md.block.ruler.getRules("paragraph"), endLine = state.lineMax;
      oldParentType = state.parentType;
      state.parentType = "paragraph";
      // jump line-by-line until empty one or EOF
          for (;nextLine < endLine && !state.isEmpty(nextLine); nextLine++) {
        // this would be a code block normally, but after paragraph
        // it's considered a lazy continuation regardless of what's there
        if (state.sCount[nextLine] - state.blkIndent > 3) {
          continue;
        }
        // quirk for blockquotes, this line should already be checked by that rule
              if (state.sCount[nextLine] < 0) {
          continue;
        }
        // Some tags can terminate paragraph without empty line.
              terminate = false;
        for (i = 0, l = terminatorRules.length; i < l; i++) {
          if (terminatorRules[i](state, nextLine, endLine, true)) {
            terminate = true;
            break;
          }
        }
        if (terminate) {
          break;
        }
      }
      content = state.getLines(startLine, nextLine, state.blkIndent, false).trim();
      state.line = nextLine;
      token = state.push("paragraph_open", "p", 1);
      token.map = [ startLine, state.line ];
      token = state.push("inline", "", 0);
      token.content = content;
      token.map = [ startLine, state.line ];
      token.children = [];
      token = state.push("paragraph_close", "p", -1);
      state.parentType = oldParentType;
      return true;
    };
    var isSpace$4 = utils.isSpace;
    function StateBlock(src, md, env, tokens) {
      var ch, s, start, pos, len, indent, offset, indent_found;
      this.src = src;
      // link to parser instance
          this.md = md;
      this.env = env;
      
      // Internal state vartiables
      
          this.tokens = tokens;
      this.bMarks = [];
   // line begin offsets for fast jumps
          this.eMarks = [];
   // line end offsets for fast jumps
          this.tShift = [];
   // offsets of the first non-space characters (tabs not expanded)
          this.sCount = [];
   // indents for each line (tabs expanded)
      // An amount of virtual spaces (tabs expanded) between beginning
      // of each line (bMarks) and real beginning of that line.
      
      // It exists only as a hack because blockquotes override bMarks
      // losing information in the process.
      
      // It's used only when expanding tabs, you can think about it as
      // an initial tab length, e.g. bsCount=21 applied to string `\t123`
      // means first tab should be expanded to 4-21%4 === 3 spaces.
      
          this.bsCount = [];
      // block parser variables
          this.blkIndent = 0;
   // required block content indent (for example, if we are
      // inside a list, it would be positioned after list marker)
          this.line = 0;
   // line index in src
          this.lineMax = 0;
   // lines count
          this.tight = false;
   // loose/tight mode for lists
          this.ddIndent = -1;
   // indent of the current dd block (-1 if there isn't any)
          this.listIndent = -1;
   // indent of the current list block (-1 if there isn't any)
      // can be 'blockquote', 'list', 'root', 'paragraph' or 'reference'
      // used in lists to determine if they interrupt a paragraph
          this.parentType = "root";
      this.level = 0;
      // renderer
          this.result = "";
      // Create caches
      // Generate markers.
          s = this.src;
      indent_found = false;
      for (start = pos = indent = offset = 0, len = s.length; pos < len; pos++) {
        ch = s.charCodeAt(pos);
        if (!indent_found) {
          if (isSpace$4(ch)) {
            indent++;
            if (ch === 9) {
              offset += 4 - offset % 4;
            } else {
              offset++;
            }
            continue;
          } else {
            indent_found = true;
          }
        }
        if (ch === 10 || pos === len - 1) {
          if (ch !== 10) {
            pos++;
          }
          this.bMarks.push(start);
          this.eMarks.push(pos);
          this.tShift.push(indent);
          this.sCount.push(offset);
          this.bsCount.push(0);
          indent_found = false;
          indent = 0;
          offset = 0;
          start = pos + 1;
        }
      }
      // Push fake entry to simplify cache bounds checks
          this.bMarks.push(s.length);
      this.eMarks.push(s.length);
      this.tShift.push(0);
      this.sCount.push(0);
      this.bsCount.push(0);
      this.lineMax = this.bMarks.length - 1;
   // don't count last fake line
      }
    // Push new token to "stream".
    
      StateBlock.prototype.push = function(type, tag, nesting) {
      var token$1 = new token(type, tag, nesting);
      token$1.block = true;
      if (nesting < 0) this.level--;
   // closing tag
          token$1.level = this.level;
      if (nesting > 0) this.level++;
   // opening tag
          this.tokens.push(token$1);
      return token$1;
    };
    StateBlock.prototype.isEmpty = function isEmpty(line) {
      return this.bMarks[line] + this.tShift[line] >= this.eMarks[line];
    };
    StateBlock.prototype.skipEmptyLines = function skipEmptyLines(from) {
      for (var max = this.lineMax; from < max; from++) {
        if (this.bMarks[from] + this.tShift[from] < this.eMarks[from]) {
          break;
        }
      }
      return from;
    };
    // Skip spaces from given position.
      StateBlock.prototype.skipSpaces = function skipSpaces(pos) {
      var ch;
      for (var max = this.src.length; pos < max; pos++) {
        ch = this.src.charCodeAt(pos);
        if (!isSpace$4(ch)) {
          break;
        }
      }
      return pos;
    };
    // Skip spaces from given position in reverse.
      StateBlock.prototype.skipSpacesBack = function skipSpacesBack(pos, min) {
      if (pos <= min) {
        return pos;
      }
      while (pos > min) {
        if (!isSpace$4(this.src.charCodeAt(--pos))) {
          return pos + 1;
        }
      }
      return pos;
    };
    // Skip char codes from given position
      StateBlock.prototype.skipChars = function skipChars(pos, code) {
      for (var max = this.src.length; pos < max; pos++) {
        if (this.src.charCodeAt(pos) !== code) {
          break;
        }
      }
      return pos;
    };
    // Skip char codes reverse from given position - 1
      StateBlock.prototype.skipCharsBack = function skipCharsBack(pos, code, min) {
      if (pos <= min) {
        return pos;
      }
      while (pos > min) {
        if (code !== this.src.charCodeAt(--pos)) {
          return pos + 1;
        }
      }
      return pos;
    };
    // cut lines range from source.
      StateBlock.prototype.getLines = function getLines(begin, end, indent, keepLastLF) {
      var i, lineIndent, ch, first, last, queue, lineStart, line = begin;
      if (begin >= end) {
        return "";
      }
      queue = new Array(end - begin);
      for (i = 0; line < end; line++, i++) {
        lineIndent = 0;
        lineStart = first = this.bMarks[line];
        if (line + 1 < end || keepLastLF) {
          // No need for bounds check because we have fake entry on tail.
          last = this.eMarks[line] + 1;
        } else {
          last = this.eMarks[line];
        }
        while (first < last && lineIndent < indent) {
          ch = this.src.charCodeAt(first);
          if (isSpace$4(ch)) {
            if (ch === 9) {
              lineIndent += 4 - (lineIndent + this.bsCount[line]) % 4;
            } else {
              lineIndent++;
            }
          } else if (first - lineStart < this.tShift[line]) {
            // patched tShift masked characters to look like spaces (blockquotes, list markers)
            lineIndent++;
          } else {
            break;
          }
          first++;
        }
        if (lineIndent > indent) {
          // partially expanding tabs in code blocks, e.g '\t\tfoobar'
          // with indent=2 becomes '  \tfoobar'
          queue[i] = new Array(lineIndent - indent + 1).join(" ") + this.src.slice(first, last);
        } else {
          queue[i] = this.src.slice(first, last);
        }
      }
      return queue.join("");
    };
    // re-export Token class to use in block rules
      StateBlock.prototype.Token = token;
    var state_block = StateBlock;
    var _rules$1 = [ 
    // First 2 params - rule name & source. Secondary array - list of rules,
    // which can be terminated by this one.
    [ "table", table, [ "paragraph", "reference" ] ], [ "code", code ], [ "fence", fence, [ "paragraph", "reference", "blockquote", "list" ] ], [ "blockquote", blockquote, [ "paragraph", "reference", "blockquote", "list" ] ], [ "hr", hr, [ "paragraph", "reference", "blockquote", "list" ] ], [ "list", list, [ "paragraph", "reference", "blockquote" ] ], [ "reference", reference ], [ "html_block", html_block, [ "paragraph", "reference", "blockquote" ] ], [ "heading", heading, [ "paragraph", "reference", "blockquote" ] ], [ "lheading", lheading ], [ "paragraph", paragraph ] ];
    /**
       * new ParserBlock()
       **/  function ParserBlock() {
      /**
         * ParserBlock#ruler -> Ruler
         *
         * [[Ruler]] instance. Keep configuration of block rules.
         **/
      this.ruler = new ruler;
      for (var i = 0; i < _rules$1.length; i++) {
        this.ruler.push(_rules$1[i][0], _rules$1[i][1], {
          alt: (_rules$1[i][2] || []).slice()
        });
      }
    }
    // Generate tokens for input range
    
      ParserBlock.prototype.tokenize = function(state, startLine, endLine) {
      var ok, i, rules = this.ruler.getRules(""), len = rules.length, line = startLine, hasEmptyLines = false, maxNesting = state.md.options.maxNesting;
      while (line < endLine) {
        state.line = line = state.skipEmptyLines(line);
        if (line >= endLine) {
          break;
        }
        // Termination condition for nested calls.
        // Nested calls currently used for blockquotes & lists
              if (state.sCount[line] < state.blkIndent) {
          break;
        }
        // If nesting level exceeded - skip tail to the end. That's not ordinary
        // situation and we should not care about content.
              if (state.level >= maxNesting) {
          state.line = endLine;
          break;
        }
        // Try all possible rules.
        // On success, rule should:
        
        // - update `state.line`
        // - update `state.tokens`
        // - return true
              for (i = 0; i < len; i++) {
          ok = rules[i](state, line, endLine, false);
          if (ok) {
            break;
          }
        }
        // set state.tight if we had an empty line before current tag
        // i.e. latest empty line should not count
              state.tight = !hasEmptyLines;
        // paragraph might "eat" one newline after it in nested lists
              if (state.isEmpty(state.line - 1)) {
          hasEmptyLines = true;
        }
        line = state.line;
        if (line < endLine && state.isEmpty(line)) {
          hasEmptyLines = true;
          line++;
          state.line = line;
        }
      }
    };
    /**
       * ParserBlock.parse(str, md, env, outTokens)
       *
       * Process input string and push block tokens into `outTokens`
       **/  ParserBlock.prototype.parse = function(src, md, env, outTokens) {
      var state;
      if (!src) {
        return;
      }
      state = new this.State(src, md, env, outTokens);
      this.tokenize(state, state.line, state.lineMax);
    };
    ParserBlock.prototype.State = state_block;
    var parser_block = ParserBlock;
    // Skip text characters for text token, place those to pending buffer
    // Rule to skip pure text
    // '{}$%@~+=:' reserved for extentions
    // !, ", #, $, %, &, ', (, ), *, +, ,, -, ., /, :, ;, <, =, >, ?, @, [, \, ], ^, _, `, {, |, }, or ~
    // !!!! Don't confuse with "Markdown ASCII Punctuation" chars
    // http://spec.commonmark.org/0.15/#ascii-punctuation-character
      function isTerminatorChar(ch) {
      switch (ch) {
       case 10 /* \n */ :
       case 33 /* ! */ :
       case 35 /* # */ :
       case 36 /* $ */ :
       case 37 /* % */ :
       case 38 /* & */ :
       case 42 /* * */ :
       case 43 /* + */ :
       case 45 /* - */ :
       case 58 /* : */ :
       case 60 /* < */ :
       case 61 /* = */ :
       case 62 /* > */ :
       case 64 /* @ */ :
       case 91 /* [ */ :
       case 92 /* \ */ :
       case 93 /* ] */ :
       case 94 /* ^ */ :
       case 95 /* _ */ :
       case 96 /* ` */ :
       case 123 /* { */ :
       case 125 /* } */ :
       case 126 /* ~ */ :
        return true;
  
       default:
        return false;
      }
    }
    var text = function text(state, silent) {
      var pos = state.pos;
      while (pos < state.posMax && !isTerminatorChar(state.src.charCodeAt(pos))) {
        pos++;
      }
      if (pos === state.pos) {
        return false;
      }
      if (!silent) {
        state.pending += state.src.slice(state.pos, pos);
      }
      state.pos = pos;
      return true;
    };
    // Process links like https://example.org/
    // RFC3986: scheme = ALPHA *( ALPHA / DIGIT / "+" / "-" / "." )
      var SCHEME_RE = /(?:^|[^a-z0-9.+-])([a-z][a-z0-9.+-]*)$/i;
    var linkify = function linkify(state, silent) {
      var pos, max, match, proto, link, url, fullUrl, token;
      if (!state.md.options.linkify) return false;
      if (state.linkLevel > 0) return false;
      pos = state.pos;
      max = state.posMax;
      if (pos + 3 > max) return false;
      if (state.src.charCodeAt(pos) !== 58 /* : */) return false;
      if (state.src.charCodeAt(pos + 1) !== 47 /* / */) return false;
      if (state.src.charCodeAt(pos + 2) !== 47 /* / */) return false;
      match = state.pending.match(SCHEME_RE);
      if (!match) return false;
      proto = match[1];
      link = state.md.linkify.matchAtStart(state.src.slice(pos - proto.length));
      if (!link) return false;
      url = link.url;
      // disallow '*' at the end of the link (conflicts with emphasis)
          url = url.replace(/\*+$/, "");
      fullUrl = state.md.normalizeLink(url);
      if (!state.md.validateLink(fullUrl)) return false;
      if (!silent) {
        state.pending = state.pending.slice(0, -proto.length);
        token = state.push("link_open", "a", 1);
        token.attrs = [ [ "href", fullUrl ] ];
        token.markup = "linkify";
        token.info = "auto";
        token = state.push("text", "", 0);
        token.content = state.md.normalizeLinkText(url);
        token = state.push("link_close", "a", -1);
        token.markup = "linkify";
        token.info = "auto";
      }
      state.pos += url.length - proto.length;
      return true;
    };
    var isSpace$3 = utils.isSpace;
    var newline = function newline(state, silent) {
      var pmax, max, ws, pos = state.pos;
      if (state.src.charCodeAt(pos) !== 10 /* \n */) {
        return false;
      }
      pmax = state.pending.length - 1;
      max = state.posMax;
      // '  \n' -> hardbreak
      // Lookup in pending chars is bad practice! Don't copy to other rules!
      // Pending string is stored in concat mode, indexed lookups will cause
      // convertion to flat mode.
          if (!silent) {
        if (pmax >= 0 && state.pending.charCodeAt(pmax) === 32) {
          if (pmax >= 1 && state.pending.charCodeAt(pmax - 1) === 32) {
            // Find whitespaces tail of pending chars.
            ws = pmax - 1;
            while (ws >= 1 && state.pending.charCodeAt(ws - 1) === 32) ws--;
            state.pending = state.pending.slice(0, ws);
            state.push("hardbreak", "br", 0);
          } else {
            state.pending = state.pending.slice(0, -1);
            state.push("softbreak", "br", 0);
          }
        } else {
          state.push("softbreak", "br", 0);
        }
      }
      pos++;
      // skip heading spaces for next line
          while (pos < max && isSpace$3(state.src.charCodeAt(pos))) {
        pos++;
      }
      state.pos = pos;
      return true;
    };
    var isSpace$2 = utils.isSpace;
    var ESCAPED = [];
    for (var i = 0; i < 256; i++) {
      ESCAPED.push(0);
    }
    "\\!\"#$%&'()*+,./:;<=>?@[]^_`{|}~-".split("").forEach((function(ch) {
      ESCAPED[ch.charCodeAt(0)] = 1;
    }));
    var _escape = function escape(state, silent) {
      var ch1, ch2, origStr, escapedStr, token, pos = state.pos, max = state.posMax;
      if (state.src.charCodeAt(pos) !== 92 /* \ */) return false;
      pos++;
      // '\' at the end of the inline block
          if (pos >= max) return false;
      ch1 = state.src.charCodeAt(pos);
      if (ch1 === 10) {
        if (!silent) {
          state.push("hardbreak", "br", 0);
        }
        pos++;
        // skip leading whitespaces from next line
              while (pos < max) {
          ch1 = state.src.charCodeAt(pos);
          if (!isSpace$2(ch1)) break;
          pos++;
        }
        state.pos = pos;
        return true;
      }
      escapedStr = state.src[pos];
      if (ch1 >= 55296 && ch1 <= 56319 && pos + 1 < max) {
        ch2 = state.src.charCodeAt(pos + 1);
        if (ch2 >= 56320 && ch2 <= 57343) {
          escapedStr += state.src[pos + 1];
          pos++;
        }
      }
      origStr = "\\" + escapedStr;
      if (!silent) {
        token = state.push("text_special", "", 0);
        if (ch1 < 256 && ESCAPED[ch1] !== 0) {
          token.content = escapedStr;
        } else {
          token.content = origStr;
        }
        token.markup = origStr;
        token.info = "escape";
      }
      state.pos = pos + 1;
      return true;
    };
    // Parse backticks
      var backticks = function backtick(state, silent) {
      var start, max, marker, token, matchStart, matchEnd, openerLength, closerLength, pos = state.pos, ch = state.src.charCodeAt(pos);
      if (ch !== 96 /* ` */) {
        return false;
      }
      start = pos;
      pos++;
      max = state.posMax;
      // scan marker length
          while (pos < max && state.src.charCodeAt(pos) === 96 /* ` */) {
        pos++;
      }
      marker = state.src.slice(start, pos);
      openerLength = marker.length;
      if (state.backticksScanned && (state.backticks[openerLength] || 0) <= start) {
        if (!silent) state.pending += marker;
        state.pos += openerLength;
        return true;
      }
      matchStart = matchEnd = pos;
      // Nothing found in the cache, scan until the end of the line (or until marker is found)
          while ((matchStart = state.src.indexOf("`", matchEnd)) !== -1) {
        matchEnd = matchStart + 1;
        // scan marker length
              while (matchEnd < max && state.src.charCodeAt(matchEnd) === 96 /* ` */) {
          matchEnd++;
        }
        closerLength = matchEnd - matchStart;
        if (closerLength === openerLength) {
          // Found matching closer length.
          if (!silent) {
            token = state.push("code_inline", "code", 0);
            token.markup = marker;
            token.content = state.src.slice(pos, matchStart).replace(/\n/g, " ").replace(/^ (.+) $/, "$1");
          }
          state.pos = matchEnd;
          return true;
        }
        // Some different length found, put it in cache as upper limit of where closer can be found
              state.backticks[closerLength] = matchStart;
      }
      // Scanned through the end, didn't find anything
          state.backticksScanned = true;
      if (!silent) state.pending += marker;
      state.pos += openerLength;
      return true;
    };
    // ~~strike through~~
    // Insert each marker as a separate text token, and add it to delimiter list
    
      var tokenize$1 = function strikethrough(state, silent) {
      var i, scanned, token, len, ch, start = state.pos, marker = state.src.charCodeAt(start);
      if (silent) {
        return false;
      }
      if (marker !== 126 /* ~ */) {
        return false;
      }
      scanned = state.scanDelims(state.pos, true);
      len = scanned.length;
      ch = String.fromCharCode(marker);
      if (len < 2) {
        return false;
      }
      if (len % 2) {
        token = state.push("text", "", 0);
        token.content = ch;
        len--;
      }
      for (i = 0; i < len; i += 2) {
        token = state.push("text", "", 0);
        token.content = ch + ch;
        state.delimiters.push({
          marker: marker,
          length: 0,
          // disable "rule of 3" length checks meant for emphasis
          token: state.tokens.length - 1,
          end: -1,
          open: scanned.can_open,
          close: scanned.can_close
        });
      }
      state.pos += scanned.length;
      return true;
    };
    function postProcess$1(state, delimiters) {
      var i, j, startDelim, endDelim, token, loneMarkers = [], max = delimiters.length;
      for (i = 0; i < max; i++) {
        startDelim = delimiters[i];
        if (startDelim.marker !== 126 /* ~ */) {
          continue;
        }
        if (startDelim.end === -1) {
          continue;
        }
        endDelim = delimiters[startDelim.end];
        token = state.tokens[startDelim.token];
        token.type = "s_open";
        token.tag = "s";
        token.nesting = 1;
        token.markup = "~~";
        token.content = "";
        token = state.tokens[endDelim.token];
        token.type = "s_close";
        token.tag = "s";
        token.nesting = -1;
        token.markup = "~~";
        token.content = "";
        if (state.tokens[endDelim.token - 1].type === "text" && state.tokens[endDelim.token - 1].content === "~") {
          loneMarkers.push(endDelim.token - 1);
        }
      }
      // If a marker sequence has an odd number of characters, it's splitted
      // like this: `~~~~~` -> `~` + `~~` + `~~`, leaving one marker at the
      // start of the sequence.
      
      // So, we have to move all those markers after subsequent s_close tags.
      
          while (loneMarkers.length) {
        i = loneMarkers.pop();
        j = i + 1;
        while (j < state.tokens.length && state.tokens[j].type === "s_close") {
          j++;
        }
        j--;
        if (i !== j) {
          token = state.tokens[j];
          state.tokens[j] = state.tokens[i];
          state.tokens[i] = token;
        }
      }
    }
    // Walk through delimiter list and replace text tokens with tags
    
      var postProcess_1$1 = function strikethrough(state) {
      var curr, tokens_meta = state.tokens_meta, max = state.tokens_meta.length;
      postProcess$1(state, state.delimiters);
      for (curr = 0; curr < max; curr++) {
        if (tokens_meta[curr] && tokens_meta[curr].delimiters) {
          postProcess$1(state, tokens_meta[curr].delimiters);
        }
      }
    };
    var strikethrough = {
      tokenize: tokenize$1,
      postProcess: postProcess_1$1
    };
    // Process *this* and _that_
    // Insert each marker as a separate text token, and add it to delimiter list
    
      var tokenize = function emphasis(state, silent) {
      var i, scanned, token, start = state.pos, marker = state.src.charCodeAt(start);
      if (silent) {
        return false;
      }
      if (marker !== 95 /* _ */ && marker !== 42 /* * */) {
        return false;
      }
      scanned = state.scanDelims(state.pos, marker === 42);
      for (i = 0; i < scanned.length; i++) {
        token = state.push("text", "", 0);
        token.content = String.fromCharCode(marker);
        state.delimiters.push({
          // Char code of the starting marker (number).
          marker: marker,
          // Total length of these series of delimiters.
          length: scanned.length,
          // A position of the token this delimiter corresponds to.
          token: state.tokens.length - 1,
          // If this delimiter is matched as a valid opener, `end` will be
          // equal to its position, otherwise it's `-1`.
          end: -1,
          // Boolean flags that determine if this delimiter could open or close
          // an emphasis.
          open: scanned.can_open,
          close: scanned.can_close
        });
      }
      state.pos += scanned.length;
      return true;
    };
    function postProcess(state, delimiters) {
      var i, startDelim, endDelim, token, ch, isStrong, max = delimiters.length;
      for (i = max - 1; i >= 0; i--) {
        startDelim = delimiters[i];
        if (startDelim.marker !== 95 /* _ */ && startDelim.marker !== 42 /* * */) {
          continue;
        }
        // Process only opening markers
              if (startDelim.end === -1) {
          continue;
        }
        endDelim = delimiters[startDelim.end];
        // If the previous delimiter has the same marker and is adjacent to this one,
        // merge those into one strong delimiter.
        
        // `<em><em>whatever</em></em>` -> `<strong>whatever</strong>`
        
              isStrong = i > 0 && delimiters[i - 1].end === startDelim.end + 1 && 
        // check that first two markers match and adjacent
        delimiters[i - 1].marker === startDelim.marker && delimiters[i - 1].token === startDelim.token - 1 && 
        // check that last two markers are adjacent (we can safely assume they match)
        delimiters[startDelim.end + 1].token === endDelim.token + 1;
        ch = String.fromCharCode(startDelim.marker);
        token = state.tokens[startDelim.token];
        token.type = isStrong ? "strong_open" : "em_open";
        token.tag = isStrong ? "strong" : "em";
        token.nesting = 1;
        token.markup = isStrong ? ch + ch : ch;
        token.content = "";
        token = state.tokens[endDelim.token];
        token.type = isStrong ? "strong_close" : "em_close";
        token.tag = isStrong ? "strong" : "em";
        token.nesting = -1;
        token.markup = isStrong ? ch + ch : ch;
        token.content = "";
        if (isStrong) {
          state.tokens[delimiters[i - 1].token].content = "";
          state.tokens[delimiters[startDelim.end + 1].token].content = "";
          i--;
        }
      }
    }
    // Walk through delimiter list and replace text tokens with tags
    
      var postProcess_1 = function emphasis(state) {
      var curr, tokens_meta = state.tokens_meta, max = state.tokens_meta.length;
      postProcess(state, state.delimiters);
      for (curr = 0; curr < max; curr++) {
        if (tokens_meta[curr] && tokens_meta[curr].delimiters) {
          postProcess(state, tokens_meta[curr].delimiters);
        }
      }
    };
    var emphasis = {
      tokenize: tokenize,
      postProcess: postProcess_1
    };
    var normalizeReference$1 = utils.normalizeReference;
    var isSpace$1 = utils.isSpace;
    var link = function link(state, silent) {
      var attrs, code, label, labelEnd, labelStart, pos, res, ref, token, href = "", title = "", oldPos = state.pos, max = state.posMax, start = state.pos, parseReference = true;
      if (state.src.charCodeAt(state.pos) !== 91 /* [ */) {
        return false;
      }
      labelStart = state.pos + 1;
      labelEnd = state.md.helpers.parseLinkLabel(state, state.pos, true);
      // parser failed to find ']', so it's not a valid link
          if (labelEnd < 0) {
        return false;
      }
      pos = labelEnd + 1;
      if (pos < max && state.src.charCodeAt(pos) === 40 /* ( */) {
        // Inline link
        // might have found a valid shortcut link, disable reference parsing
        parseReference = false;
        // [link](  <href>  "title"  )
        //        ^^ skipping these spaces
              pos++;
        for (;pos < max; pos++) {
          code = state.src.charCodeAt(pos);
          if (!isSpace$1(code) && code !== 10) {
            break;
          }
        }
        if (pos >= max) {
          return false;
        }
        // [link](  <href>  "title"  )
        //          ^^^^^^ parsing link destination
              start = pos;
        res = state.md.helpers.parseLinkDestination(state.src, pos, state.posMax);
        if (res.ok) {
          href = state.md.normalizeLink(res.str);
          if (state.md.validateLink(href)) {
            pos = res.pos;
          } else {
            href = "";
          }
          // [link](  <href>  "title"  )
          //                ^^ skipping these spaces
                  start = pos;
          for (;pos < max; pos++) {
            code = state.src.charCodeAt(pos);
            if (!isSpace$1(code) && code !== 10) {
              break;
            }
          }
          // [link](  <href>  "title"  )
          //                  ^^^^^^^ parsing link title
                  res = state.md.helpers.parseLinkTitle(state.src, pos, state.posMax);
          if (pos < max && start !== pos && res.ok) {
            title = res.str;
            pos = res.pos;
            // [link](  <href>  "title"  )
            //                         ^^ skipping these spaces
                      for (;pos < max; pos++) {
              code = state.src.charCodeAt(pos);
              if (!isSpace$1(code) && code !== 10) {
                break;
              }
            }
          }
        }
        if (pos >= max || state.src.charCodeAt(pos) !== 41 /* ) */) {
          // parsing a valid shortcut link failed, fallback to reference
          parseReference = true;
        }
        pos++;
      }
      if (parseReference) {
        // Link reference
        if (typeof state.env.references === "undefined") {
          return false;
        }
        if (pos < max && state.src.charCodeAt(pos) === 91 /* [ */) {
          start = pos + 1;
          pos = state.md.helpers.parseLinkLabel(state, pos);
          if (pos >= 0) {
            label = state.src.slice(start, pos++);
          } else {
            pos = labelEnd + 1;
          }
        } else {
          pos = labelEnd + 1;
        }
        // covers label === '' and label === undefined
        // (collapsed reference link and shortcut reference link respectively)
              if (!label) {
          label = state.src.slice(labelStart, labelEnd);
        }
        ref = state.env.references[normalizeReference$1(label)];
        if (!ref) {
          state.pos = oldPos;
          return false;
        }
        href = ref.href;
        title = ref.title;
      }
      
      // We found the end of the link, and know for a fact it's a valid link;
      // so all that's left to do is to call tokenizer.
      
          if (!silent) {
        state.pos = labelStart;
        state.posMax = labelEnd;
        token = state.push("link_open", "a", 1);
        token.attrs = attrs = [ [ "href", href ] ];
        if (title) {
          attrs.push([ "title", title ]);
        }
        state.linkLevel++;
        state.md.inline.tokenize(state);
        state.linkLevel--;
        token = state.push("link_close", "a", -1);
      }
      state.pos = pos;
      state.posMax = max;
      return true;
    };
    var normalizeReference = utils.normalizeReference;
    var isSpace = utils.isSpace;
    var image = function image(state, silent) {
      var attrs, code, content, label, labelEnd, labelStart, pos, ref, res, title, token, tokens, start, href = "", oldPos = state.pos, max = state.posMax;
      if (state.src.charCodeAt(state.pos) !== 33 /* ! */) {
        return false;
      }
      if (state.src.charCodeAt(state.pos + 1) !== 91 /* [ */) {
        return false;
      }
      labelStart = state.pos + 2;
      labelEnd = state.md.helpers.parseLinkLabel(state, state.pos + 1, false);
      // parser failed to find ']', so it's not a valid link
          if (labelEnd < 0) {
        return false;
      }
      pos = labelEnd + 1;
      if (pos < max && state.src.charCodeAt(pos) === 40 /* ( */) {
        // Inline link
        // [link](  <href>  "title"  )
        //        ^^ skipping these spaces
        pos++;
        for (;pos < max; pos++) {
          code = state.src.charCodeAt(pos);
          if (!isSpace(code) && code !== 10) {
            break;
          }
        }
        if (pos >= max) {
          return false;
        }
        // [link](  <href>  "title"  )
        //          ^^^^^^ parsing link destination
              start = pos;
        res = state.md.helpers.parseLinkDestination(state.src, pos, state.posMax);
        if (res.ok) {
          href = state.md.normalizeLink(res.str);
          if (state.md.validateLink(href)) {
            pos = res.pos;
          } else {
            href = "";
          }
        }
        // [link](  <href>  "title"  )
        //                ^^ skipping these spaces
              start = pos;
        for (;pos < max; pos++) {
          code = state.src.charCodeAt(pos);
          if (!isSpace(code) && code !== 10) {
            break;
          }
        }
        // [link](  <href>  "title"  )
        //                  ^^^^^^^ parsing link title
              res = state.md.helpers.parseLinkTitle(state.src, pos, state.posMax);
        if (pos < max && start !== pos && res.ok) {
          title = res.str;
          pos = res.pos;
          // [link](  <href>  "title"  )
          //                         ^^ skipping these spaces
                  for (;pos < max; pos++) {
            code = state.src.charCodeAt(pos);
            if (!isSpace(code) && code !== 10) {
              break;
            }
          }
        } else {
          title = "";
        }
        if (pos >= max || state.src.charCodeAt(pos) !== 41 /* ) */) {
          state.pos = oldPos;
          return false;
        }
        pos++;
      } else {
        // Link reference
        if (typeof state.env.references === "undefined") {
          return false;
        }
        if (pos < max && state.src.charCodeAt(pos) === 91 /* [ */) {
          start = pos + 1;
          pos = state.md.helpers.parseLinkLabel(state, pos);
          if (pos >= 0) {
            label = state.src.slice(start, pos++);
          } else {
            pos = labelEnd + 1;
          }
        } else {
          pos = labelEnd + 1;
        }
        // covers label === '' and label === undefined
        // (collapsed reference link and shortcut reference link respectively)
              if (!label) {
          label = state.src.slice(labelStart, labelEnd);
        }
        ref = state.env.references[normalizeReference(label)];
        if (!ref) {
          state.pos = oldPos;
          return false;
        }
        href = ref.href;
        title = ref.title;
      }
      
      // We found the end of the link, and know for a fact it's a valid link;
      // so all that's left to do is to call tokenizer.
      
          if (!silent) {
        content = state.src.slice(labelStart, labelEnd);
        state.md.inline.parse(content, state.md, state.env, tokens = []);
        token = state.push("image", "img", 0);
        token.attrs = attrs = [ [ "src", href ], [ "alt", "" ] ];
        token.children = tokens;
        token.content = content;
        if (title) {
          attrs.push([ "title", title ]);
        }
      }
      state.pos = pos;
      state.posMax = max;
      return true;
    };
    // Process autolinks '<protocol:...>'
    /*eslint max-len:0*/  var EMAIL_RE = /^([a-zA-Z0-9.!#$%&'*+\/=?^_`{|}~-]+@[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?(?:\.[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?)*)$/;
    var AUTOLINK_RE = /^([a-zA-Z][a-zA-Z0-9+.\-]{1,31}):([^<>\x00-\x20]*)$/;
    var autolink = function autolink(state, silent) {
      var url, fullUrl, token, ch, start, max, pos = state.pos;
      if (state.src.charCodeAt(pos) !== 60 /* < */) {
        return false;
      }
      start = state.pos;
      max = state.posMax;
      for (;;) {
        if (++pos >= max) return false;
        ch = state.src.charCodeAt(pos);
        if (ch === 60 /* < */) return false;
        if (ch === 62 /* > */) break;
      }
      url = state.src.slice(start + 1, pos);
      if (AUTOLINK_RE.test(url)) {
        fullUrl = state.md.normalizeLink(url);
        if (!state.md.validateLink(fullUrl)) {
          return false;
        }
        if (!silent) {
          token = state.push("link_open", "a", 1);
          token.attrs = [ [ "href", fullUrl ] ];
          token.markup = "autolink";
          token.info = "auto";
          token = state.push("text", "", 0);
          token.content = state.md.normalizeLinkText(url);
          token = state.push("link_close", "a", -1);
          token.markup = "autolink";
          token.info = "auto";
        }
        state.pos += url.length + 2;
        return true;
      }
      if (EMAIL_RE.test(url)) {
        fullUrl = state.md.normalizeLink("mailto:" + url);
        if (!state.md.validateLink(fullUrl)) {
          return false;
        }
        if (!silent) {
          token = state.push("link_open", "a", 1);
          token.attrs = [ [ "href", fullUrl ] ];
          token.markup = "autolink";
          token.info = "auto";
          token = state.push("text", "", 0);
          token.content = state.md.normalizeLinkText(url);
          token = state.push("link_close", "a", -1);
          token.markup = "autolink";
          token.info = "auto";
        }
        state.pos += url.length + 2;
        return true;
      }
      return false;
    };
    var HTML_TAG_RE = html_re.HTML_TAG_RE;
    function isLinkOpen(str) {
      return /^<a[>\s]/i.test(str);
    }
    function isLinkClose(str) {
      return /^<\/a\s*>/i.test(str);
    }
    function isLetter(ch) {
      /*eslint no-bitwise:0*/
      var lc = ch | 32;
   // to lower case
          return lc >= 97 /* a */ && lc <= 122 /* z */;
    }
    var html_inline = function html_inline(state, silent) {
      var ch, match, max, token, pos = state.pos;
      if (!state.md.options.html) {
        return false;
      }
      // Check start
          max = state.posMax;
      if (state.src.charCodeAt(pos) !== 60 /* < */ || pos + 2 >= max) {
        return false;
      }
      // Quick fail on second char
          ch = state.src.charCodeAt(pos + 1);
      if (ch !== 33 /* ! */ && ch !== 63 /* ? */ && ch !== 47 /* / */ && !isLetter(ch)) {
        return false;
      }
      match = state.src.slice(pos).match(HTML_TAG_RE);
      if (!match) {
        return false;
      }
      if (!silent) {
        token = state.push("html_inline", "", 0);
        token.content = state.src.slice(pos, pos + match[0].length);
        if (isLinkOpen(token.content)) state.linkLevel++;
        if (isLinkClose(token.content)) state.linkLevel--;
      }
      state.pos += match[0].length;
      return true;
    };
    var has = utils.has;
    var isValidEntityCode = utils.isValidEntityCode;
    var fromCodePoint = utils.fromCodePoint;
    var DIGITAL_RE = /^&#((?:x[a-f0-9]{1,6}|[0-9]{1,7}));/i;
    var NAMED_RE = /^&([a-z][a-z0-9]{1,31});/i;
    var entity = function entity(state, silent) {
      var ch, code, match, token, pos = state.pos, max = state.posMax;
      if (state.src.charCodeAt(pos) !== 38 /* & */) return false;
      if (pos + 1 >= max) return false;
      ch = state.src.charCodeAt(pos + 1);
      if (ch === 35 /* # */) {
        match = state.src.slice(pos).match(DIGITAL_RE);
        if (match) {
          if (!silent) {
            code = match[1][0].toLowerCase() === "x" ? parseInt(match[1].slice(1), 16) : parseInt(match[1], 10);
            token = state.push("text_special", "", 0);
            token.content = isValidEntityCode(code) ? fromCodePoint(code) : fromCodePoint(65533);
            token.markup = match[0];
            token.info = "entity";
          }
          state.pos += match[0].length;
          return true;
        }
      } else {
        match = state.src.slice(pos).match(NAMED_RE);
        if (match) {
          if (has(entities, match[1])) {
            if (!silent) {
              token = state.push("text_special", "", 0);
              token.content = entities[match[1]];
              token.markup = match[0];
              token.info = "entity";
            }
            state.pos += match[0].length;
            return true;
          }
        }
      }
      return false;
    };
    // For each opening emphasis-like marker find a matching closing one
      function processDelimiters(state, delimiters) {
      var closerIdx, openerIdx, closer, opener, minOpenerIdx, newMinOpenerIdx, isOddMatch, lastJump, openersBottom = {}, max = delimiters.length;
      if (!max) return;
      // headerIdx is the first delimiter of the current (where closer is) delimiter run
          var headerIdx = 0;
      var lastTokenIdx = -2;
   // needs any value lower than -1
          var jumps = [];
      for (closerIdx = 0; closerIdx < max; closerIdx++) {
        closer = delimiters[closerIdx];
        jumps.push(0);
        // markers belong to same delimiter run if:
        //  - they have adjacent tokens
        //  - AND markers are the same
        
              if (delimiters[headerIdx].marker !== closer.marker || lastTokenIdx !== closer.token - 1) {
          headerIdx = closerIdx;
        }
        lastTokenIdx = closer.token;
        // Length is only used for emphasis-specific "rule of 3",
        // if it's not defined (in strikethrough or 3rd party plugins),
        // we can default it to 0 to disable those checks.
        
              closer.length = closer.length || 0;
        if (!closer.close) continue;
        // Previously calculated lower bounds (previous fails)
        // for each marker, each delimiter length modulo 3,
        // and for whether this closer can be an opener;
        // https://github.com/commonmark/cmark/commit/34250e12ccebdc6372b8b49c44fab57c72443460
              if (!openersBottom.hasOwnProperty(closer.marker)) {
          openersBottom[closer.marker] = [ -1, -1, -1, -1, -1, -1 ];
        }
        minOpenerIdx = openersBottom[closer.marker][(closer.open ? 3 : 0) + closer.length % 3];
        openerIdx = headerIdx - jumps[headerIdx] - 1;
        newMinOpenerIdx = openerIdx;
        for (;openerIdx > minOpenerIdx; openerIdx -= jumps[openerIdx] + 1) {
          opener = delimiters[openerIdx];
          if (opener.marker !== closer.marker) continue;
          if (opener.open && opener.end < 0) {
            isOddMatch = false;
            // from spec:
            
            // If one of the delimiters can both open and close emphasis, then the
            // sum of the lengths of the delimiter runs containing the opening and
            // closing delimiters must not be a multiple of 3 unless both lengths
            // are multiples of 3.
            
                      if (opener.close || closer.open) {
              if ((opener.length + closer.length) % 3 === 0) {
                if (opener.length % 3 !== 0 || closer.length % 3 !== 0) {
                  isOddMatch = true;
                }
              }
            }
            if (!isOddMatch) {
              // If previous delimiter cannot be an opener, we can safely skip
              // the entire sequence in future checks. This is required to make
              // sure algorithm has linear complexity (see *_*_*_*_*_... case).
              lastJump = openerIdx > 0 && !delimiters[openerIdx - 1].open ? jumps[openerIdx - 1] + 1 : 0;
              jumps[closerIdx] = closerIdx - openerIdx + lastJump;
              jumps[openerIdx] = lastJump;
              closer.open = false;
              opener.end = closerIdx;
              opener.close = false;
              newMinOpenerIdx = -1;
              // treat next token as start of run,
              // it optimizes skips in **<...>**a**<...>** pathological case
                          lastTokenIdx = -2;
              break;
            }
          }
        }
        if (newMinOpenerIdx !== -1) {
          // If match for this delimiter run failed, we want to set lower bound for
          // future lookups. This is required to make sure algorithm has linear
          // complexity.
          // See details here:
          // https://github.com/commonmark/cmark/issues/178#issuecomment-270417442
          openersBottom[closer.marker][(closer.open ? 3 : 0) + (closer.length || 0) % 3] = newMinOpenerIdx;
        }
      }
    }
    var balance_pairs = function link_pairs(state) {
      var curr, tokens_meta = state.tokens_meta, max = state.tokens_meta.length;
      processDelimiters(state, state.delimiters);
      for (curr = 0; curr < max; curr++) {
        if (tokens_meta[curr] && tokens_meta[curr].delimiters) {
          processDelimiters(state, tokens_meta[curr].delimiters);
        }
      }
    };
    // Clean up tokens after emphasis and strikethrough postprocessing:
      var fragments_join = function fragments_join(state) {
      var curr, last, level = 0, tokens = state.tokens, max = state.tokens.length;
      for (curr = last = 0; curr < max; curr++) {
        // re-calculate levels after emphasis/strikethrough turns some text nodes
        // into opening/closing tags
        if (tokens[curr].nesting < 0) level--;
   // closing tag
              tokens[curr].level = level;
        if (tokens[curr].nesting > 0) level++;
   // opening tag
              if (tokens[curr].type === "text" && curr + 1 < max && tokens[curr + 1].type === "text") {
          // collapse two adjacent text nodes
          tokens[curr + 1].content = tokens[curr].content + tokens[curr + 1].content;
        } else {
          if (curr !== last) {
            tokens[last] = tokens[curr];
          }
          last++;
        }
      }
      if (curr !== last) {
        tokens.length = last;
      }
    };
    var isWhiteSpace = utils.isWhiteSpace;
    var isPunctChar = utils.isPunctChar;
    var isMdAsciiPunct = utils.isMdAsciiPunct;
    function StateInline(src, md, env, outTokens) {
      this.src = src;
      this.env = env;
      this.md = md;
      this.tokens = outTokens;
      this.tokens_meta = Array(outTokens.length);
      this.pos = 0;
      this.posMax = this.src.length;
      this.level = 0;
      this.pending = "";
      this.pendingLevel = 0;
      // Stores { start: end } pairs. Useful for backtrack
      // optimization of pairs parse (emphasis, strikes).
          this.cache = {};
      // List of emphasis-like delimiters for current tag
          this.delimiters = [];
      // Stack of delimiter lists for upper level tags
          this._prev_delimiters = [];
      // backtick length => last seen position
          this.backticks = {};
      this.backticksScanned = false;
      // Counter used to disable inline linkify-it execution
      // inside <a> and markdown links
          this.linkLevel = 0;
    }
    // Flush pending text
    
      StateInline.prototype.pushPending = function() {
      var token$1 = new token("text", "", 0);
      token$1.content = this.pending;
      token$1.level = this.pendingLevel;
      this.tokens.push(token$1);
      this.pending = "";
      return token$1;
    };
    // Push new token to "stream".
    // If pending text exists - flush it as text token
    
      StateInline.prototype.push = function(type, tag, nesting) {
      if (this.pending) {
        this.pushPending();
      }
      var token$1 = new token(type, tag, nesting);
      var token_meta = null;
      if (nesting < 0) {
        // closing tag
        this.level--;
        this.delimiters = this._prev_delimiters.pop();
      }
      token$1.level = this.level;
      if (nesting > 0) {
        // opening tag
        this.level++;
        this._prev_delimiters.push(this.delimiters);
        this.delimiters = [];
        token_meta = {
          delimiters: this.delimiters
        };
      }
      this.pendingLevel = this.level;
      this.tokens.push(token$1);
      this.tokens_meta.push(token_meta);
      return token$1;
    };
    // Scan a sequence of emphasis-like markers, and determine whether
    // it can start an emphasis sequence or end an emphasis sequence.
    
    //  - start - position to scan from (it should point at a valid marker);
    //  - canSplitWord - determine if these markers can be found inside a word
    
      StateInline.prototype.scanDelims = function(start, canSplitWord) {
      var pos = start, lastChar, nextChar, count, can_open, can_close, isLastWhiteSpace, isLastPunctChar, isNextWhiteSpace, isNextPunctChar, left_flanking = true, right_flanking = true, max = this.posMax, marker = this.src.charCodeAt(start);
      // treat beginning of the line as a whitespace
          lastChar = start > 0 ? this.src.charCodeAt(start - 1) : 32;
      while (pos < max && this.src.charCodeAt(pos) === marker) {
        pos++;
      }
      count = pos - start;
      // treat end of the line as a whitespace
          nextChar = pos < max ? this.src.charCodeAt(pos) : 32;
      isLastPunctChar = isMdAsciiPunct(lastChar) || isPunctChar(String.fromCharCode(lastChar));
      isNextPunctChar = isMdAsciiPunct(nextChar) || isPunctChar(String.fromCharCode(nextChar));
      isLastWhiteSpace = isWhiteSpace(lastChar);
      isNextWhiteSpace = isWhiteSpace(nextChar);
      if (isNextWhiteSpace) {
        left_flanking = false;
      } else if (isNextPunctChar) {
        if (!(isLastWhiteSpace || isLastPunctChar)) {
          left_flanking = false;
        }
      }
      if (isLastWhiteSpace) {
        right_flanking = false;
      } else if (isLastPunctChar) {
        if (!(isNextWhiteSpace || isNextPunctChar)) {
          right_flanking = false;
        }
      }
      if (!canSplitWord) {
        can_open = left_flanking && (!right_flanking || isLastPunctChar);
        can_close = right_flanking && (!left_flanking || isNextPunctChar);
      } else {
        can_open = left_flanking;
        can_close = right_flanking;
      }
      return {
        can_open: can_open,
        can_close: can_close,
        length: count
      };
    };
    // re-export Token class to use in block rules
      StateInline.prototype.Token = token;
    var state_inline = StateInline;
    ////////////////////////////////////////////////////////////////////////////////
    // Parser rules
      var _rules = [ [ "text", text ], [ "linkify", linkify ], [ "newline", newline ], [ "escape", _escape ], [ "backticks", backticks ], [ "strikethrough", strikethrough.tokenize ], [ "emphasis", emphasis.tokenize ], [ "link", link ], [ "image", image ], [ "autolink", autolink ], [ "html_inline", html_inline ], [ "entity", entity ] ];
    // `rule2` ruleset was created specifically for emphasis/strikethrough
    // post-processing and may be changed in the future.
    
    // Don't use this for anything except pairs (plugins working with `balance_pairs`).
    
      var _rules2 = [ [ "balance_pairs", balance_pairs ], [ "strikethrough", strikethrough.postProcess ], [ "emphasis", emphasis.postProcess ], 
    // rules for pairs separate '**' into its own text tokens, which may be left unused,
    // rule below merges unused segments back with the rest of the text
    [ "fragments_join", fragments_join ] ];
    /**
       * new ParserInline()
       **/  function ParserInline() {
      var i;
      /**
         * ParserInline#ruler -> Ruler
         *
         * [[Ruler]] instance. Keep configuration of inline rules.
         **/    this.ruler = new ruler;
      for (i = 0; i < _rules.length; i++) {
        this.ruler.push(_rules[i][0], _rules[i][1]);
      }
      /**
         * ParserInline#ruler2 -> Ruler
         *
         * [[Ruler]] instance. Second ruler used for post-processing
         * (e.g. in emphasis-like rules).
         **/    this.ruler2 = new ruler;
      for (i = 0; i < _rules2.length; i++) {
        this.ruler2.push(_rules2[i][0], _rules2[i][1]);
      }
    }
    // Skip single token by running all rules in validation mode;
    // returns `true` if any rule reported success
    
      ParserInline.prototype.skipToken = function(state) {
      var ok, i, pos = state.pos, rules = this.ruler.getRules(""), len = rules.length, maxNesting = state.md.options.maxNesting, cache = state.cache;
      if (typeof cache[pos] !== "undefined") {
        state.pos = cache[pos];
        return;
      }
      if (state.level < maxNesting) {
        for (i = 0; i < len; i++) {
          // Increment state.level and decrement it later to limit recursion.
          // It's harmless to do here, because no tokens are created. But ideally,
          // we'd need a separate private state variable for this purpose.
          state.level++;
          ok = rules[i](state, true);
          state.level--;
          if (ok) {
            break;
          }
        }
      } else {
        // Too much nesting, just skip until the end of the paragraph.
        // NOTE: this will cause links to behave incorrectly in the following case,
        //       when an amount of `[` is exactly equal to `maxNesting + 1`:
        //       [[[[[[[[[[[[[[[[[[[[[foo]()
        // TODO: remove this workaround when CM standard will allow nested links
        //       (we can replace it by preventing links from being parsed in
        //       validation mode)
        state.pos = state.posMax;
      }
      if (!ok) {
        state.pos++;
      }
      cache[pos] = state.pos;
    };
    // Generate tokens for input range
    
      ParserInline.prototype.tokenize = function(state) {
      var ok, i, rules = this.ruler.getRules(""), len = rules.length, end = state.posMax, maxNesting = state.md.options.maxNesting;
      while (state.pos < end) {
        // Try all possible rules.
        // On success, rule should:
        // - update `state.pos`
        // - update `state.tokens`
        // - return true
        if (state.level < maxNesting) {
          for (i = 0; i < len; i++) {
            ok = rules[i](state, false);
            if (ok) {
              break;
            }
          }
        }
        if (ok) {
          if (state.pos >= end) {
            break;
          }
          continue;
        }
        state.pending += state.src[state.pos++];
      }
      if (state.pending) {
        state.pushPending();
      }
    };
    /**
       * ParserInline.parse(str, md, env, outTokens)
       *
       * Process input string and push inline tokens into `outTokens`
       **/  ParserInline.prototype.parse = function(str, md, env, outTokens) {
      var i, rules, len;
      var state = new this.State(str, md, env, outTokens);
      this.tokenize(state);
      rules = this.ruler2.getRules("");
      len = rules.length;
      for (i = 0; i < len; i++) {
        rules[i](state);
      }
    };
    ParserInline.prototype.State = state_inline;
    var parser_inline = ParserInline;
    var re = function(opts) {
      var re = {};
      opts = opts || {};
      // Use direct extract instead of `regenerate` to reduse browserified size
          re.src_Any = regex$3.source;
      re.src_Cc = regex$2.source;
      re.src_Z = regex.source;
      re.src_P = regex$4.source;
      // \p{\Z\P\Cc\CF} (white spaces + control + format + punctuation)
          re.src_ZPCc = [ re.src_Z, re.src_P, re.src_Cc ].join("|");
      // \p{\Z\Cc} (white spaces + control)
          re.src_ZCc = [ re.src_Z, re.src_Cc ].join("|");
      // Experimental. List of chars, completely prohibited in links
      // because can separate it from other part of text
          var text_separators = "[><\uff5c]";
      // All possible word characters (everything without punctuation, spaces & controls)
      // Defined via punctuation & spaces to save space
      // Should be something like \p{\L\N\S\M} (\w but without `_`)
          re.src_pseudo_letter = "(?:(?!" + text_separators + "|" + re.src_ZPCc + ")" + re.src_Any + ")";
      // The same as abothe but without [0-9]
      // var src_pseudo_letter_non_d = '(?:(?![0-9]|' + src_ZPCc + ')' + src_Any + ')';
      ////////////////////////////////////////////////////////////////////////////////
          re.src_ip4 = "(?:(25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)\\.){3}(25[0-5]|2[0-4][0-9]|[01]?[0-9][0-9]?)";
      // Prohibit any of "@/[]()" in user/pass to avoid wrong domain fetch.
          re.src_auth = "(?:(?:(?!" + re.src_ZCc + "|[@/\\[\\]()]).)+@)?";
      re.src_port = "(?::(?:6(?:[0-4]\\d{3}|5(?:[0-4]\\d{2}|5(?:[0-2]\\d|3[0-5])))|[1-5]?\\d{1,4}))?";
      re.src_host_terminator = "(?=$|" + text_separators + "|" + re.src_ZPCc + ")" + "(?!" + (opts["---"] ? "-(?!--)|" : "-|") + "_|:\\d|\\.-|\\.(?!$|" + re.src_ZPCc + "))";
      re.src_path = "(?:" + "[/?#]" + "(?:" + "(?!" + re.src_ZCc + "|" + text_separators + "|[()[\\]{}.,\"'?!\\-;]).|" + "\\[(?:(?!" + re.src_ZCc + "|\\]).)*\\]|" + "\\((?:(?!" + re.src_ZCc + "|[)]).)*\\)|" + "\\{(?:(?!" + re.src_ZCc + "|[}]).)*\\}|" + '\\"(?:(?!' + re.src_ZCc + '|["]).)+\\"|' + "\\'(?:(?!" + re.src_ZCc + "|[']).)+\\'|" + "\\'(?=" + re.src_pseudo_letter + "|[-])|" + // allow `I'm_king` if no pair found
      "\\.{2,}[a-zA-Z0-9%/&]|" + // google has many dots in "google search" links (#66, #81).
      // github has ... in commit range links,
      // Restrict to
      // - english
      // - percent-encoded
      // - parts of file path
      // - params separator
      // until more examples found.
      "\\.(?!" + re.src_ZCc + "|[.]|$)|" + (opts["---"] ? "\\-(?!--(?:[^-]|$))(?:-*)|" : "\\-+|") + ",(?!" + re.src_ZCc + "|$)|" + // allow `,,,` in paths
      ";(?!" + re.src_ZCc + "|$)|" + // allow `;` if not followed by space-like char
      "\\!+(?!" + re.src_ZCc + "|[!]|$)|" + // allow `!!!` in paths, but not at the end
      "\\?(?!" + re.src_ZCc + "|[?]|$)" + ")+" + "|\\/" + ")?";
      // Allow anything in markdown spec, forbid quote (") at the first position
      // because emails enclosed in quotes are far more common
          re.src_email_name = '[\\-;:&=\\+\\$,\\.a-zA-Z0-9_][\\-;:&=\\+\\$,\\"\\.a-zA-Z0-9_]*';
      re.src_xn = "xn--[a-z0-9\\-]{1,59}";
      // More to read about domain names
      // http://serverfault.com/questions/638260/
          re.src_domain_root = 
      // Allow letters & digits (http://test1)
      "(?:" + re.src_xn + "|" + re.src_pseudo_letter + "{1,63}" + ")";
      re.src_domain = "(?:" + re.src_xn + "|" + "(?:" + re.src_pseudo_letter + ")" + "|" + "(?:" + re.src_pseudo_letter + "(?:-|" + re.src_pseudo_letter + "){0,61}" + re.src_pseudo_letter + ")" + ")";
      re.src_host = "(?:" + 
      // Don't need IP check, because digits are already allowed in normal domain names
      //   src_ip4 +
      // '|' +
      "(?:(?:(?:" + re.src_domain + ")\\.)*" + re.src_domain /*_root*/ + ")" + ")";
      re.tpl_host_fuzzy = "(?:" + re.src_ip4 + "|" + "(?:(?:(?:" + re.src_domain + ")\\.)+(?:%TLDS%))" + ")";
      re.tpl_host_no_ip_fuzzy = "(?:(?:(?:" + re.src_domain + ")\\.)+(?:%TLDS%))";
      re.src_host_strict = re.src_host + re.src_host_terminator;
      re.tpl_host_fuzzy_strict = re.tpl_host_fuzzy + re.src_host_terminator;
      re.src_host_port_strict = re.src_host + re.src_port + re.src_host_terminator;
      re.tpl_host_port_fuzzy_strict = re.tpl_host_fuzzy + re.src_port + re.src_host_terminator;
      re.tpl_host_port_no_ip_fuzzy_strict = re.tpl_host_no_ip_fuzzy + re.src_port + re.src_host_terminator;
      ////////////////////////////////////////////////////////////////////////////////
      // Main rules
      // Rude test fuzzy links by host, for quick deny
          re.tpl_host_fuzzy_test = "localhost|www\\.|\\.\\d{1,3}\\.|(?:\\.(?:%TLDS%)(?:" + re.src_ZPCc + "|>|$))";
      re.tpl_email_fuzzy = "(^|" + text_separators + '|"|\\(|' + re.src_ZCc + ")" + "(" + re.src_email_name + "@" + re.tpl_host_fuzzy_strict + ")";
      re.tpl_link_fuzzy = 
      // Fuzzy link can't be prepended with .:/\- and non punctuation.
      // but can start with > (markdown blockquote)
      "(^|(?![.:/\\-_@])(?:[$+<=>^`|\uff5c]|" + re.src_ZPCc + "))" + "((?![$+<=>^`|\uff5c])" + re.tpl_host_port_fuzzy_strict + re.src_path + ")";
      re.tpl_link_no_ip_fuzzy = 
      // Fuzzy link can't be prepended with .:/\- and non punctuation.
      // but can start with > (markdown blockquote)
      "(^|(?![.:/\\-_@])(?:[$+<=>^`|\uff5c]|" + re.src_ZPCc + "))" + "((?![$+<=>^`|\uff5c])" + re.tpl_host_port_no_ip_fuzzy_strict + re.src_path + ")";
      return re;
    };
    ////////////////////////////////////////////////////////////////////////////////
    // Helpers
    // Merge objects
    
      function assign(obj /*from1, from2, from3, ...*/) {
      var sources = Array.prototype.slice.call(arguments, 1);
      sources.forEach((function(source) {
        if (!source) {
          return;
        }
        Object.keys(source).forEach((function(key) {
          obj[key] = source[key];
        }));
      }));
      return obj;
    }
    function _class(obj) {
      return Object.prototype.toString.call(obj);
    }
    function isString(obj) {
      return _class(obj) === "[object String]";
    }
    function isObject(obj) {
      return _class(obj) === "[object Object]";
    }
    function isRegExp(obj) {
      return _class(obj) === "[object RegExp]";
    }
    function isFunction(obj) {
      return _class(obj) === "[object Function]";
    }
    function escapeRE(str) {
      return str.replace(/[.?*+^$[\]\\(){}|-]/g, "\\$&");
    }
    ////////////////////////////////////////////////////////////////////////////////
      var defaultOptions = {
      fuzzyLink: true,
      fuzzyEmail: true,
      fuzzyIP: false
    };
    function isOptionsObj(obj) {
      return Object.keys(obj || {}).reduce((function(acc, k) {
        return acc || defaultOptions.hasOwnProperty(k);
      }), false);
    }
    var defaultSchemas = {
      "http:": {
        validate: function(text, pos, self) {
          var tail = text.slice(pos);
          if (!self.re.http) {
            // compile lazily, because "host"-containing variables can change on tlds update.
            self.re.http = new RegExp("^\\/\\/" + self.re.src_auth + self.re.src_host_port_strict + self.re.src_path, "i");
          }
          if (self.re.http.test(tail)) {
            return tail.match(self.re.http)[0].length;
          }
          return 0;
        }
      },
      "https:": "http:",
      "ftp:": "http:",
      "//": {
        validate: function(text, pos, self) {
          var tail = text.slice(pos);
          if (!self.re.no_http) {
            // compile lazily, because "host"-containing variables can change on tlds update.
            self.re.no_http = new RegExp("^" + self.re.src_auth + 
            // Don't allow single-level domains, because of false positives like '//test'
            // with code comments
            "(?:localhost|(?:(?:" + self.re.src_domain + ")\\.)+" + self.re.src_domain_root + ")" + self.re.src_port + self.re.src_host_terminator + self.re.src_path, "i");
          }
          if (self.re.no_http.test(tail)) {
            // should not be `://` & `///`, that protects from errors in protocol name
            if (pos >= 3 && text[pos - 3] === ":") {
              return 0;
            }
            if (pos >= 3 && text[pos - 3] === "/") {
              return 0;
            }
            return tail.match(self.re.no_http)[0].length;
          }
          return 0;
        }
      },
      "mailto:": {
        validate: function(text, pos, self) {
          var tail = text.slice(pos);
          if (!self.re.mailto) {
            self.re.mailto = new RegExp("^" + self.re.src_email_name + "@" + self.re.src_host_strict, "i");
          }
          if (self.re.mailto.test(tail)) {
            return tail.match(self.re.mailto)[0].length;
          }
          return 0;
        }
      }
    };
    /*eslint-disable max-len*/
    // RE pattern for 2-character tlds (autogenerated by ./support/tlds_2char_gen.js)
      var tlds_2ch_src_re = "a[cdefgilmnoqrstuwxz]|b[abdefghijmnorstvwyz]|c[acdfghiklmnoruvwxyz]|d[ejkmoz]|e[cegrstu]|f[ijkmor]|g[abdefghilmnpqrstuwy]|h[kmnrtu]|i[delmnoqrst]|j[emop]|k[eghimnprwyz]|l[abcikrstuvy]|m[acdeghklmnopqrstuvwxyz]|n[acefgilopruz]|om|p[aefghklmnrstwy]|qa|r[eosuw]|s[abcdeghijklmnortuvxyz]|t[cdfghjklmnortvwz]|u[agksyz]|v[aceginu]|w[fs]|y[et]|z[amw]";
    // DON'T try to make PRs with changes. Extend TLDs with LinkifyIt.tlds() instead
      var tlds_default = "biz|com|edu|gov|net|org|pro|web|xxx|aero|asia|coop|info|museum|name|shop|\u0440\u0444".split("|");
    /*eslint-enable max-len*/
    ////////////////////////////////////////////////////////////////////////////////
      function resetScanCache(self) {
      self.__index__ = -1;
      self.__text_cache__ = "";
    }
    function createValidator(re) {
      return function(text, pos) {
        var tail = text.slice(pos);
        if (re.test(tail)) {
          return tail.match(re)[0].length;
        }
        return 0;
      };
    }
    function createNormalizer() {
      return function(match, self) {
        self.normalize(match);
      };
    }
    // Schemas compiler. Build regexps.
    
      function compile(self) {
      // Load & clone RE patterns.
      var re$1 = self.re = re(self.__opts__);
      // Define dynamic patterns
          var tlds = self.__tlds__.slice();
      self.onCompile();
      if (!self.__tlds_replaced__) {
        tlds.push(tlds_2ch_src_re);
      }
      tlds.push(re$1.src_xn);
      re$1.src_tlds = tlds.join("|");
      function untpl(tpl) {
        return tpl.replace("%TLDS%", re$1.src_tlds);
      }
      re$1.email_fuzzy = RegExp(untpl(re$1.tpl_email_fuzzy), "i");
      re$1.link_fuzzy = RegExp(untpl(re$1.tpl_link_fuzzy), "i");
      re$1.link_no_ip_fuzzy = RegExp(untpl(re$1.tpl_link_no_ip_fuzzy), "i");
      re$1.host_fuzzy_test = RegExp(untpl(re$1.tpl_host_fuzzy_test), "i");
      
      // Compile each schema
      
          var aliases = [];
      self.__compiled__ = {};
   // Reset compiled data
          function schemaError(name, val) {
        throw new Error('(LinkifyIt) Invalid schema "' + name + '": ' + val);
      }
      Object.keys(self.__schemas__).forEach((function(name) {
        var val = self.__schemas__[name];
        // skip disabled methods
              if (val === null) {
          return;
        }
        var compiled = {
          validate: null,
          link: null
        };
        self.__compiled__[name] = compiled;
        if (isObject(val)) {
          if (isRegExp(val.validate)) {
            compiled.validate = createValidator(val.validate);
          } else if (isFunction(val.validate)) {
            compiled.validate = val.validate;
          } else {
            schemaError(name, val);
          }
          if (isFunction(val.normalize)) {
            compiled.normalize = val.normalize;
          } else if (!val.normalize) {
            compiled.normalize = createNormalizer();
          } else {
            schemaError(name, val);
          }
          return;
        }
        if (isString(val)) {
          aliases.push(name);
          return;
        }
        schemaError(name, val);
      }));
      
      // Compile postponed aliases
      
          aliases.forEach((function(alias) {
        if (!self.__compiled__[self.__schemas__[alias]]) {
          // Silently fail on missed schemas to avoid errons on disable.
          // schemaError(alias, self.__schemas__[alias]);
          return;
        }
        self.__compiled__[alias].validate = self.__compiled__[self.__schemas__[alias]].validate;
        self.__compiled__[alias].normalize = self.__compiled__[self.__schemas__[alias]].normalize;
      }));
      
      // Fake record for guessed links
      
          self.__compiled__[""] = {
        validate: null,
        normalize: createNormalizer()
      };
      
      // Build schema condition
      
          var slist = Object.keys(self.__compiled__).filter((function(name) {
        // Filter disabled & fake schemas
        return name.length > 0 && self.__compiled__[name];
      })).map(escapeRE).join("|");
      // (?!_) cause 1.5x slowdown
          self.re.schema_test = RegExp("(^|(?!_)(?:[><\uff5c]|" + re$1.src_ZPCc + "))(" + slist + ")", "i");
      self.re.schema_search = RegExp("(^|(?!_)(?:[><\uff5c]|" + re$1.src_ZPCc + "))(" + slist + ")", "ig");
      self.re.schema_at_start = RegExp("^" + self.re.schema_search.source, "i");
      self.re.pretest = RegExp("(" + self.re.schema_test.source + ")|(" + self.re.host_fuzzy_test.source + ")|@", "i");
      
      // Cleanup
      
          resetScanCache(self);
    }
    /**
       * class Match
       *
       * Match result. Single element of array, returned by [[LinkifyIt#match]]
       **/  function Match(self, shift) {
      var start = self.__index__, end = self.__last_index__, text = self.__text_cache__.slice(start, end);
      /**
         * Match#schema -> String
         *
         * Prefix (protocol) for matched string.
         **/    this.schema = self.__schema__.toLowerCase();
      /**
         * Match#index -> Number
         *
         * First position of matched string.
         **/    this.index = start + shift;
      /**
         * Match#lastIndex -> Number
         *
         * Next position after matched string.
         **/    this.lastIndex = end + shift;
      /**
         * Match#raw -> String
         *
         * Matched string.
         **/    this.raw = text;
      /**
         * Match#text -> String
         *
         * Notmalized text of matched string.
         **/    this.text = text;
      /**
         * Match#url -> String
         *
         * Normalized url of matched string.
         **/    this.url = text;
    }
    function createMatch(self, shift) {
      var match = new Match(self, shift);
      self.__compiled__[match.schema].normalize(match, self);
      return match;
    }
    /**
       * class LinkifyIt
       **/
    /**
       * new LinkifyIt(schemas, options)
       * - schemas (Object): Optional. Additional schemas to validate (prefix/validator)
       * - options (Object): { fuzzyLink|fuzzyEmail|fuzzyIP: true|false }
       *
       * Creates new linkifier instance with optional additional schemas.
       * Can be called without `new` keyword for convenience.
       *
       * By default understands:
       *
       * - `http(s)://...` , `ftp://...`, `mailto:...` & `//...` links
       * - "fuzzy" links and emails (example.com, foo@bar.com).
       *
       * `schemas` is an object, where each key/value describes protocol/rule:
       *
       * - __key__ - link prefix (usually, protocol name with `:` at the end, `skype:`
       *   for example). `linkify-it` makes shure that prefix is not preceeded with
       *   alphanumeric char and symbols. Only whitespaces and punctuation allowed.
       * - __value__ - rule to check tail after link prefix
       *   - _String_ - just alias to existing rule
       *   - _Object_
       *     - _validate_ - validator function (should return matched length on success),
       *       or `RegExp`.
       *     - _normalize_ - optional function to normalize text & url of matched result
       *       (for example, for @twitter mentions).
       *
       * `options`:
       *
       * - __fuzzyLink__ - recognige URL-s without `http(s):` prefix. Default `true`.
       * - __fuzzyIP__ - allow IPs in fuzzy links above. Can conflict with some texts
       *   like version numbers. Default `false`.
       * - __fuzzyEmail__ - recognize emails without `mailto:` prefix.
       *
       **/  function LinkifyIt(schemas, options) {
      if (!(this instanceof LinkifyIt)) {
        return new LinkifyIt(schemas, options);
      }
      if (!options) {
        if (isOptionsObj(schemas)) {
          options = schemas;
          schemas = {};
        }
      }
      this.__opts__ = assign({}, defaultOptions, options);
      // Cache last tested result. Used to skip repeating steps on next `match` call.
          this.__index__ = -1;
      this.__last_index__ = -1;
   // Next scan position
          this.__schema__ = "";
      this.__text_cache__ = "";
      this.__schemas__ = assign({}, defaultSchemas, schemas);
      this.__compiled__ = {};
      this.__tlds__ = tlds_default;
      this.__tlds_replaced__ = false;
      this.re = {};
      compile(this);
    }
    /** chainable
       * LinkifyIt#add(schema, definition)
       * - schema (String): rule name (fixed pattern prefix)
       * - definition (String|RegExp|Object): schema definition
       *
       * Add new rule definition. See constructor description for details.
       **/  LinkifyIt.prototype.add = function add(schema, definition) {
      this.__schemas__[schema] = definition;
      compile(this);
      return this;
    };
    /** chainable
       * LinkifyIt#set(options)
       * - options (Object): { fuzzyLink|fuzzyEmail|fuzzyIP: true|false }
       *
       * Set recognition options for links without schema.
       **/  LinkifyIt.prototype.set = function set(options) {
      this.__opts__ = assign(this.__opts__, options);
      return this;
    };
    /**
       * LinkifyIt#test(text) -> Boolean
       *
       * Searches linkifiable pattern and returns `true` on success or `false` on fail.
       **/  LinkifyIt.prototype.test = function test(text) {
      // Reset scan cache
      this.__text_cache__ = text;
      this.__index__ = -1;
      if (!text.length) {
        return false;
      }
      var m, ml, me, len, shift, next, re, tld_pos, at_pos;
      // try to scan for link with schema - that's the most simple rule
          if (this.re.schema_test.test(text)) {
        re = this.re.schema_search;
        re.lastIndex = 0;
        while ((m = re.exec(text)) !== null) {
          len = this.testSchemaAt(text, m[2], re.lastIndex);
          if (len) {
            this.__schema__ = m[2];
            this.__index__ = m.index + m[1].length;
            this.__last_index__ = m.index + m[0].length + len;
            break;
          }
        }
      }
      if (this.__opts__.fuzzyLink && this.__compiled__["http:"]) {
        // guess schemaless links
        tld_pos = text.search(this.re.host_fuzzy_test);
        if (tld_pos >= 0) {
          // if tld is located after found link - no need to check fuzzy pattern
          if (this.__index__ < 0 || tld_pos < this.__index__) {
            if ((ml = text.match(this.__opts__.fuzzyIP ? this.re.link_fuzzy : this.re.link_no_ip_fuzzy)) !== null) {
              shift = ml.index + ml[1].length;
              if (this.__index__ < 0 || shift < this.__index__) {
                this.__schema__ = "";
                this.__index__ = shift;
                this.__last_index__ = ml.index + ml[0].length;
              }
            }
          }
        }
      }
      if (this.__opts__.fuzzyEmail && this.__compiled__["mailto:"]) {
        // guess schemaless emails
        at_pos = text.indexOf("@");
        if (at_pos >= 0) {
          // We can't skip this check, because this cases are possible:
          // 192.168.1.1@gmail.com, my.in@example.com
          if ((me = text.match(this.re.email_fuzzy)) !== null) {
            shift = me.index + me[1].length;
            next = me.index + me[0].length;
            if (this.__index__ < 0 || shift < this.__index__ || shift === this.__index__ && next > this.__last_index__) {
              this.__schema__ = "mailto:";
              this.__index__ = shift;
              this.__last_index__ = next;
            }
          }
        }
      }
      return this.__index__ >= 0;
    };
    /**
       * LinkifyIt#pretest(text) -> Boolean
       *
       * Very quick check, that can give false positives. Returns true if link MAY BE
       * can exists. Can be used for speed optimization, when you need to check that
       * link NOT exists.
       **/  LinkifyIt.prototype.pretest = function pretest(text) {
      return this.re.pretest.test(text);
    };
    /**
       * LinkifyIt#testSchemaAt(text, name, position) -> Number
       * - text (String): text to scan
       * - name (String): rule (schema) name
       * - position (Number): text offset to check from
       *
       * Similar to [[LinkifyIt#test]] but checks only specific protocol tail exactly
       * at given position. Returns length of found pattern (0 on fail).
       **/  LinkifyIt.prototype.testSchemaAt = function testSchemaAt(text, schema, pos) {
      // If not supported schema check requested - terminate
      if (!this.__compiled__[schema.toLowerCase()]) {
        return 0;
      }
      return this.__compiled__[schema.toLowerCase()].validate(text, pos, this);
    };
    /**
       * LinkifyIt#match(text) -> Array|null
       *
       * Returns array of found link descriptions or `null` on fail. We strongly
       * recommend to use [[LinkifyIt#test]] first, for best speed.
       *
       * ##### Result match description
       *
       * - __schema__ - link schema, can be empty for fuzzy links, or `//` for
       *   protocol-neutral  links.
       * - __index__ - offset of matched text
       * - __lastIndex__ - index of next char after mathch end
       * - __raw__ - matched text
       * - __text__ - normalized text
       * - __url__ - link, generated from matched text
       **/  LinkifyIt.prototype.match = function match(text) {
      var shift = 0, result = [];
      // Try to take previous element from cache, if .test() called before
          if (this.__index__ >= 0 && this.__text_cache__ === text) {
        result.push(createMatch(this, shift));
        shift = this.__last_index__;
      }
      // Cut head if cache was used
          var tail = shift ? text.slice(shift) : text;
      // Scan string until end reached
          while (this.test(tail)) {
        result.push(createMatch(this, shift));
        tail = tail.slice(this.__last_index__);
        shift += this.__last_index__;
      }
      if (result.length) {
        return result;
      }
      return null;
    };
    /**
       * LinkifyIt#matchAtStart(text) -> Match|null
       *
       * Returns fully-formed (not fuzzy) link if it starts at the beginning
       * of the string, and null otherwise.
       **/  LinkifyIt.prototype.matchAtStart = function matchAtStart(text) {
      // Reset scan cache
      this.__text_cache__ = text;
      this.__index__ = -1;
      if (!text.length) return null;
      var m = this.re.schema_at_start.exec(text);
      if (!m) return null;
      var len = this.testSchemaAt(text, m[2], m[0].length);
      if (!len) return null;
      this.__schema__ = m[2];
      this.__index__ = m.index + m[1].length;
      this.__last_index__ = m.index + m[0].length + len;
      return createMatch(this, 0);
    };
    /** chainable
       * LinkifyIt#tlds(list [, keepOld]) -> this
       * - list (Array): list of tlds
       * - keepOld (Boolean): merge with current list if `true` (`false` by default)
       *
       * Load (or merge) new tlds list. Those are user for fuzzy links (without prefix)
       * to avoid false positives. By default this algorythm used:
       *
       * - hostname with any 2-letter root zones are ok.
       * - biz|com|edu|gov|net|org|pro|web|xxx|aero|asia|coop|info|museum|name|shop|рф
       *   are ok.
       * - encoded (`xn--...`) root zones are ok.
       *
       * If list is replaced, then exact match for 2-chars root zones will be checked.
       **/  LinkifyIt.prototype.tlds = function tlds(list, keepOld) {
      list = Array.isArray(list) ? list : [ list ];
      if (!keepOld) {
        this.__tlds__ = list.slice();
        this.__tlds_replaced__ = true;
        compile(this);
        return this;
      }
      this.__tlds__ = this.__tlds__.concat(list).sort().filter((function(el, idx, arr) {
        return el !== arr[idx - 1];
      })).reverse();
      compile(this);
      return this;
    };
    /**
       * LinkifyIt#normalize(match)
       *
       * Default normalizer (if schema does not define it's own).
       **/  LinkifyIt.prototype.normalize = function normalize(match) {
      // Do minimal possible changes by default. Need to collect feedback prior
      // to move forward https://github.com/markdown-it/linkify-it/issues/1
      if (!match.schema) {
        match.url = "http://" + match.url;
      }
      if (match.schema === "mailto:" && !/^mailto:/i.test(match.url)) {
        match.url = "mailto:" + match.url;
      }
    };
    /**
       * LinkifyIt#onCompile()
       *
       * Override to modify basic RegExp-s.
       **/  LinkifyIt.prototype.onCompile = function onCompile() {};
    var linkifyIt = LinkifyIt;
    /*! https://mths.be/punycode v1.4.1 by @mathias */
    /** Highest positive signed 32-bit float value */  var maxInt = 2147483647;
   // aka. 0x7FFFFFFF or 2^31-1
    /** Bootstring parameters */  var base = 36;
    var tMin = 1;
    var tMax = 26;
    var skew = 38;
    var damp = 700;
    var initialBias = 72;
    var initialN = 128;
   // 0x80
      var delimiter = "-";
   // '\x2D'
    /** Regular expressions */  var regexPunycode = /^xn--/;
    var regexNonASCII = /[^\x20-\x7E]/;
   // unprintable ASCII chars + non-ASCII chars
      var regexSeparators = /[\x2E\u3002\uFF0E\uFF61]/g;
   // RFC 3490 separators
    /** Error messages */  var errors = {
      overflow: "Overflow: input needs wider integers to process",
      "not-basic": "Illegal input >= 0x80 (not a basic code point)",
      "invalid-input": "Invalid input"
    };
    /** Convenience shortcuts */  var baseMinusTMin = base - tMin;
    var floor = Math.floor;
    var stringFromCharCode = String.fromCharCode;
    /*--------------------------------------------------------------------------*/
    /**
       * A generic error utility function.
       * @private
       * @param {String} type The error type.
       * @returns {Error} Throws a `RangeError` with the applicable error message.
       */  function error(type) {
      throw new RangeError(errors[type]);
    }
    /**
       * A generic `Array#map` utility function.
       * @private
       * @param {Array} array The array to iterate over.
       * @param {Function} callback The function that gets called for every array
       * item.
       * @returns {Array} A new array of values returned by the callback function.
       */  function map(array, fn) {
      var length = array.length;
      var result = [];
      while (length--) {
        result[length] = fn(array[length]);
      }
      return result;
    }
    /**
       * A simple `Array#map`-like wrapper to work with domain name strings or email
       * addresses.
       * @private
       * @param {String} domain The domain name or email address.
       * @param {Function} callback The function that gets called for every
       * character.
       * @returns {Array} A new string of characters returned by the callback
       * function.
       */  function mapDomain(string, fn) {
      var parts = string.split("@");
      var result = "";
      if (parts.length > 1) {
        // In email addresses, only the domain name should be punycoded. Leave
        // the local part (i.e. everything up to `@`) intact.
        result = parts[0] + "@";
        string = parts[1];
      }
      // Avoid `split(regex)` for IE8 compatibility. See #17.
          string = string.replace(regexSeparators, ".");
      var labels = string.split(".");
      var encoded = map(labels, fn).join(".");
      return result + encoded;
    }
    /**
       * Creates an array containing the numeric code points of each Unicode
       * character in the string. While JavaScript uses UCS-2 internally,
       * this function will convert a pair of surrogate halves (each of which
       * UCS-2 exposes as separate characters) into a single code point,
       * matching UTF-16.
       * @see `punycode.ucs2.encode`
       * @see <https://mathiasbynens.be/notes/javascript-encoding>
       * @memberOf punycode.ucs2
       * @name decode
       * @param {String} string The Unicode input string (UCS-2).
       * @returns {Array} The new array of code points.
       */  function ucs2decode(string) {
      var output = [], counter = 0, length = string.length, value, extra;
      while (counter < length) {
        value = string.charCodeAt(counter++);
        if (value >= 55296 && value <= 56319 && counter < length) {
          // high surrogate, and there is a next character
          extra = string.charCodeAt(counter++);
          if ((extra & 64512) == 56320) {
            // low surrogate
            output.push(((value & 1023) << 10) + (extra & 1023) + 65536);
          } else {
            // unmatched surrogate; only append this code unit, in case the next
            // code unit is the high surrogate of a surrogate pair
            output.push(value);
            counter--;
          }
        } else {
          output.push(value);
        }
      }
      return output;
    }
    /**
       * Creates a string based on an array of numeric code points.
       * @see `punycode.ucs2.decode`
       * @memberOf punycode.ucs2
       * @name encode
       * @param {Array} codePoints The array of numeric code points.
       * @returns {String} The new Unicode string (UCS-2).
       */  function ucs2encode(array) {
      return map(array, (function(value) {
        var output = "";
        if (value > 65535) {
          value -= 65536;
          output += stringFromCharCode(value >>> 10 & 1023 | 55296);
          value = 56320 | value & 1023;
        }
        output += stringFromCharCode(value);
        return output;
      })).join("");
    }
    /**
       * Converts a basic code point into a digit/integer.
       * @see `digitToBasic()`
       * @private
       * @param {Number} codePoint The basic numeric code point value.
       * @returns {Number} The numeric value of a basic code point (for use in
       * representing integers) in the range `0` to `base - 1`, or `base` if
       * the code point does not represent a value.
       */  function basicToDigit(codePoint) {
      if (codePoint - 48 < 10) {
        return codePoint - 22;
      }
      if (codePoint - 65 < 26) {
        return codePoint - 65;
      }
      if (codePoint - 97 < 26) {
        return codePoint - 97;
      }
      return base;
    }
    /**
       * Converts a digit/integer into a basic code point.
       * @see `basicToDigit()`
       * @private
       * @param {Number} digit The numeric value of a basic code point.
       * @returns {Number} The basic code point whose value (when used for
       * representing integers) is `digit`, which needs to be in the range
       * `0` to `base - 1`. If `flag` is non-zero, the uppercase form is
       * used; else, the lowercase form is used. The behavior is undefined
       * if `flag` is non-zero and `digit` has no uppercase form.
       */  function digitToBasic(digit, flag) {
      //  0..25 map to ASCII a..z or A..Z
      // 26..35 map to ASCII 0..9
      return digit + 22 + 75 * (digit < 26) - ((flag != 0) << 5);
    }
    /**
       * Bias adaptation function as per section 3.4 of RFC 3492.
       * https://tools.ietf.org/html/rfc3492#section-3.4
       * @private
       */  function adapt(delta, numPoints, firstTime) {
      var k = 0;
      delta = firstTime ? floor(delta / damp) : delta >> 1;
      delta += floor(delta / numPoints);
      for (;delta > baseMinusTMin * tMax >> 1; k += base) {
        delta = floor(delta / baseMinusTMin);
      }
      return floor(k + (baseMinusTMin + 1) * delta / (delta + skew));
    }
    /**
       * Converts a Punycode string of ASCII-only symbols to a string of Unicode
       * symbols.
       * @memberOf punycode
       * @param {String} input The Punycode string of ASCII-only symbols.
       * @returns {String} The resulting string of Unicode symbols.
       */  function decode(input) {
      // Don't use UCS-2
      var output = [], inputLength = input.length, out, i = 0, n = initialN, bias = initialBias, basic, j, index, oldi, w, k, digit, t, 
      /** Cached calculation results */
      baseMinusT;
      // Handle the basic code points: let `basic` be the number of input code
      // points before the last delimiter, or `0` if there is none, then copy
      // the first basic code points to the output.
          basic = input.lastIndexOf(delimiter);
      if (basic < 0) {
        basic = 0;
      }
      for (j = 0; j < basic; ++j) {
        // if it's not a basic code point
        if (input.charCodeAt(j) >= 128) {
          error("not-basic");
        }
        output.push(input.charCodeAt(j));
      }
      // Main decoding loop: start just after the last delimiter if any basic code
      // points were copied; start at the beginning otherwise.
          for (index = basic > 0 ? basic + 1 : 0; index < inputLength; ) {
        // `index` is the index of the next character to be consumed.
        // Decode a generalized variable-length integer into `delta`,
        // which gets added to `i`. The overflow checking is easier
        // if we increase `i` as we go, then subtract off its starting
        // value at the end to obtain `delta`.
        for (oldi = i, w = 1, k = base; ;k += base) {
          if (index >= inputLength) {
            error("invalid-input");
          }
          digit = basicToDigit(input.charCodeAt(index++));
          if (digit >= base || digit > floor((maxInt - i) / w)) {
            error("overflow");
          }
          i += digit * w;
          t = k <= bias ? tMin : k >= bias + tMax ? tMax : k - bias;
          if (digit < t) {
            break;
          }
          baseMinusT = base - t;
          if (w > floor(maxInt / baseMinusT)) {
            error("overflow");
          }
          w *= baseMinusT;
        }
        out = output.length + 1;
        bias = adapt(i - oldi, out, oldi == 0);
        // `i` was supposed to wrap around from `out` to `0`,
        // incrementing `n` each time, so we'll fix that now:
              if (floor(i / out) > maxInt - n) {
          error("overflow");
        }
        n += floor(i / out);
        i %= out;
        // Insert `n` at position `i` of the output
              output.splice(i++, 0, n);
      }
      return ucs2encode(output);
    }
    /**
       * Converts a string of Unicode symbols (e.g. a domain name label) to a
       * Punycode string of ASCII-only symbols.
       * @memberOf punycode
       * @param {String} input The string of Unicode symbols.
       * @returns {String} The resulting Punycode string of ASCII-only symbols.
       */  function encode(input) {
      var n, delta, handledCPCount, basicLength, bias, j, m, q, k, t, currentValue, output = [], 
      /** `inputLength` will hold the number of code points in `input`. */
      inputLength, 
      /** Cached calculation results */
      handledCPCountPlusOne, baseMinusT, qMinusT;
      // Convert the input in UCS-2 to Unicode
          input = ucs2decode(input);
      // Cache the length
          inputLength = input.length;
      // Initialize the state
          n = initialN;
      delta = 0;
      bias = initialBias;
      // Handle the basic code points
          for (j = 0; j < inputLength; ++j) {
        currentValue = input[j];
        if (currentValue < 128) {
          output.push(stringFromCharCode(currentValue));
        }
      }
      handledCPCount = basicLength = output.length;
      // `handledCPCount` is the number of code points that have been handled;
      // `basicLength` is the number of basic code points.
      // Finish the basic string - if it is not empty - with a delimiter
          if (basicLength) {
        output.push(delimiter);
      }
      // Main encoding loop:
          while (handledCPCount < inputLength) {
        // All non-basic code points < n have been handled already. Find the next
        // larger one:
        for (m = maxInt, j = 0; j < inputLength; ++j) {
          currentValue = input[j];
          if (currentValue >= n && currentValue < m) {
            m = currentValue;
          }
        }
        // Increase `delta` enough to advance the decoder's <n,i> state to <m,0>,
        // but guard against overflow
              handledCPCountPlusOne = handledCPCount + 1;
        if (m - n > floor((maxInt - delta) / handledCPCountPlusOne)) {
          error("overflow");
        }
        delta += (m - n) * handledCPCountPlusOne;
        n = m;
        for (j = 0; j < inputLength; ++j) {
          currentValue = input[j];
          if (currentValue < n && ++delta > maxInt) {
            error("overflow");
          }
          if (currentValue == n) {
            // Represent delta as a generalized variable-length integer
            for (q = delta, k = base; ;k += base) {
              t = k <= bias ? tMin : k >= bias + tMax ? tMax : k - bias;
              if (q < t) {
                break;
              }
              qMinusT = q - t;
              baseMinusT = base - t;
              output.push(stringFromCharCode(digitToBasic(t + qMinusT % baseMinusT, 0)));
              q = floor(qMinusT / baseMinusT);
            }
            output.push(stringFromCharCode(digitToBasic(q, 0)));
            bias = adapt(delta, handledCPCountPlusOne, handledCPCount == basicLength);
            delta = 0;
            ++handledCPCount;
          }
        }
        ++delta;
        ++n;
      }
      return output.join("");
    }
    /**
       * Converts a Punycode string representing a domain name or an email address
       * to Unicode. Only the Punycoded parts of the input will be converted, i.e.
       * it doesn't matter if you call it on a string that has already been
       * converted to Unicode.
       * @memberOf punycode
       * @param {String} input The Punycoded domain name or email address to
       * convert to Unicode.
       * @returns {String} The Unicode representation of the given Punycode
       * string.
       */  function toUnicode(input) {
      return mapDomain(input, (function(string) {
        return regexPunycode.test(string) ? decode(string.slice(4).toLowerCase()) : string;
      }));
    }
    /**
       * Converts a Unicode string representing a domain name or an email address to
       * Punycode. Only the non-ASCII parts of the domain name will be converted,
       * i.e. it doesn't matter if you call it with a domain that's already in
       * ASCII.
       * @memberOf punycode
       * @param {String} input The domain name or email address to convert, as a
       * Unicode string.
       * @returns {String} The Punycode representation of the given domain name or
       * email address.
       */  function toASCII(input) {
      return mapDomain(input, (function(string) {
        return regexNonASCII.test(string) ? "xn--" + encode(string) : string;
      }));
    }
    var version = "1.4.1";
    /**
       * An object of methods to convert from JavaScript's internal character
       * representation (UCS-2) to Unicode code points, and back.
       * @see <https://mathiasbynens.be/notes/javascript-encoding>
       * @memberOf punycode
       * @type Object
       */  var ucs2 = {
      decode: ucs2decode,
      encode: ucs2encode
    };
    var punycode$1 = {
      version: version,
      ucs2: ucs2,
      toASCII: toASCII,
      toUnicode: toUnicode,
      encode: encode,
      decode: decode
    };
    var punycode$2 =  Object.freeze({
      __proto__: null,
      decode: decode,
      encode: encode,
      toUnicode: toUnicode,
      toASCII: toASCII,
      version: version,
      ucs2: ucs2,
      default: punycode$1
    });
    // markdown-it default options
      var _default = {
      options: {
        html: false,
        // Enable HTML tags in source
        xhtmlOut: false,
        // Use '/' to close single tags (<br />)
        breaks: false,
        // Convert '\n' in paragraphs into <br>
        langPrefix: "language-",
        // CSS language prefix for fenced blocks
        linkify: false,
        // autoconvert URL-like texts to links
        // Enable some language-neutral replacements + quotes beautification
        typographer: false,
        // Double + single quotes replacement pairs, when typographer enabled,
        // and smartquotes on. Could be either a String or an Array.
        // For example, you can use '«»„“' for Russian, '„“‚‘' for German,
        // and ['«\xA0', '\xA0»', '‹\xA0', '\xA0›'] for French (including nbsp).
        quotes: "\u201c\u201d\u2018\u2019",
        /* “”‘’ */
        // Highlighter function. Should return escaped HTML,
        // or '' if the source string is not changed and should be escaped externaly.
        // If result starts with <pre... internal wrapper is skipped.
        // function (/*str, lang*/) { return ''; }
        highlight: null,
        maxNesting: 100
      },
      components: {
        core: {},
        block: {},
        inline: {}
      }
    };
    // "Zero" preset, with nothing enabled. Useful for manual configuring of simple
      var zero = {
      options: {
        html: false,
        // Enable HTML tags in source
        xhtmlOut: false,
        // Use '/' to close single tags (<br />)
        breaks: false,
        // Convert '\n' in paragraphs into <br>
        langPrefix: "language-",
        // CSS language prefix for fenced blocks
        linkify: false,
        // autoconvert URL-like texts to links
        // Enable some language-neutral replacements + quotes beautification
        typographer: false,
        // Double + single quotes replacement pairs, when typographer enabled,
        // and smartquotes on. Could be either a String or an Array.
        // For example, you can use '«»„“' for Russian, '„“‚‘' for German,
        // and ['«\xA0', '\xA0»', '‹\xA0', '\xA0›'] for French (including nbsp).
        quotes: "\u201c\u201d\u2018\u2019",
        /* “”‘’ */
        // Highlighter function. Should return escaped HTML,
        // or '' if the source string is not changed and should be escaped externaly.
        // If result starts with <pre... internal wrapper is skipped.
        // function (/*str, lang*/) { return ''; }
        highlight: null,
        maxNesting: 20
      },
      components: {
        core: {
          rules: [ "normalize", "block", "inline", "text_join" ]
        },
        block: {
          rules: [ "paragraph" ]
        },
        inline: {
          rules: [ "text" ],
          rules2: [ "balance_pairs", "fragments_join" ]
        }
      }
    };
    // Commonmark default options
      var commonmark = {
      options: {
        html: true,
        // Enable HTML tags in source
        xhtmlOut: true,
        // Use '/' to close single tags (<br />)
        breaks: false,
        // Convert '\n' in paragraphs into <br>
        langPrefix: "language-",
        // CSS language prefix for fenced blocks
        linkify: false,
        // autoconvert URL-like texts to links
        // Enable some language-neutral replacements + quotes beautification
        typographer: false,
        // Double + single quotes replacement pairs, when typographer enabled,
        // and smartquotes on. Could be either a String or an Array.
        // For example, you can use '«»„“' for Russian, '„“‚‘' for German,
        // and ['«\xA0', '\xA0»', '‹\xA0', '\xA0›'] for French (including nbsp).
        quotes: "\u201c\u201d\u2018\u2019",
        /* “”‘’ */
        // Highlighter function. Should return escaped HTML,
        // or '' if the source string is not changed and should be escaped externaly.
        // If result starts with <pre... internal wrapper is skipped.
        // function (/*str, lang*/) { return ''; }
        highlight: null,
        maxNesting: 20
      },
      components: {
        core: {
          rules: [ "normalize", "block", "inline", "text_join" ]
        },
        block: {
          rules: [ "blockquote", "code", "fence", "heading", "hr", "html_block", "lheading", "list", "reference", "paragraph" ]
        },
        inline: {
          rules: [ "autolink", "backticks", "emphasis", "entity", "escape", "html_inline", "image", "link", "newline", "text" ],
          rules2: [ "balance_pairs", "emphasis", "fragments_join" ]
        }
      }
    };
    var punycode =  getAugmentedNamespace(punycode$2);
    var config = {
      default: _default,
      zero: zero,
      commonmark: commonmark
    };
    ////////////////////////////////////////////////////////////////////////////////
    
    // This validator can prohibit more than really needed to prevent XSS. It's a
    // tradeoff to keep code simple and to be secure by default.
    
    // If you need different setup - override validator method as you wish. Or
    // replace it with dummy function and use external sanitizer.
    
      var BAD_PROTO_RE = /^(vbscript|javascript|file|data):/;
    var GOOD_DATA_RE = /^data:image\/(gif|png|jpeg|webp);/;
    function validateLink(url) {
      // url should be normalized at this point, and existing entities are decoded
      var str = url.trim().toLowerCase();
      return BAD_PROTO_RE.test(str) ? GOOD_DATA_RE.test(str) ? true : false : true;
    }
    ////////////////////////////////////////////////////////////////////////////////
      var RECODE_HOSTNAME_FOR = [ "http:", "https:", "mailto:" ];
    function normalizeLink(url) {
      var parsed = mdurl.parse(url, true);
      if (parsed.hostname) {
        // Encode hostnames in urls like:
        // `http://host/`, `https://host/`, `mailto:user@host`, `//host/`
        // We don't encode unknown schemas, because it's likely that we encode
        // something we shouldn't (e.g. `skype:name` treated as `skype:host`)
        if (!parsed.protocol || RECODE_HOSTNAME_FOR.indexOf(parsed.protocol) >= 0) {
          try {
            parsed.hostname = punycode.toASCII(parsed.hostname);
          } catch (er) {}
        }
      }
      return mdurl.encode(mdurl.format(parsed));
    }
    function normalizeLinkText(url) {
      var parsed = mdurl.parse(url, true);
      if (parsed.hostname) {
        // Encode hostnames in urls like:
        // `http://host/`, `https://host/`, `mailto:user@host`, `//host/`
        // We don't encode unknown schemas, because it's likely that we encode
        // something we shouldn't (e.g. `skype:name` treated as `skype:host`)
        if (!parsed.protocol || RECODE_HOSTNAME_FOR.indexOf(parsed.protocol) >= 0) {
          try {
            parsed.hostname = punycode.toUnicode(parsed.hostname);
          } catch (er) {}
        }
      }
      // add '%' to exclude list because of https://github.com/markdown-it/markdown-it/issues/720
          return mdurl.decode(mdurl.format(parsed), mdurl.decode.defaultChars + "%");
    }
    /**
       * class MarkdownIt
       *
       * Main parser/renderer class.
       *
       * ##### Usage
       *
       * ```javascript
       * // node.js, "classic" way:
       * var MarkdownIt = require('markdown-it'),
       *     md = new MarkdownIt();
       * var result = md.render('# markdown-it rulezz!');
       *
       * // node.js, the same, but with sugar:
       * var md = require('markdown-it')();
       * var result = md.render('# markdown-it rulezz!');
       *
       * // browser without AMD, added to "window" on script load
       * // Note, there are no dash.
       * var md = window.markdownit();
       * var result = md.render('# markdown-it rulezz!');
       * ```
       *
       * Single line rendering, without paragraph wrap:
       *
       * ```javascript
       * var md = require('markdown-it')();
       * var result = md.renderInline('__markdown-it__ rulezz!');
       * ```
       **/
    /**
       * new MarkdownIt([presetName, options])
       * - presetName (String): optional, `commonmark` / `zero`
       * - options (Object)
       *
       * Creates parser instanse with given config. Can be called without `new`.
       *
       * ##### presetName
       *
       * MarkdownIt provides named presets as a convenience to quickly
       * enable/disable active syntax rules and options for common use cases.
       *
       * - ["commonmark"](https://github.com/markdown-it/markdown-it/blob/master/lib/presets/commonmark.js) -
       *   configures parser to strict [CommonMark](http://commonmark.org/) mode.
       * - [default](https://github.com/markdown-it/markdown-it/blob/master/lib/presets/default.js) -
       *   similar to GFM, used when no preset name given. Enables all available rules,
       *   but still without html, typographer & autolinker.
       * - ["zero"](https://github.com/markdown-it/markdown-it/blob/master/lib/presets/zero.js) -
       *   all rules disabled. Useful to quickly setup your config via `.enable()`.
       *   For example, when you need only `bold` and `italic` markup and nothing else.
       *
       * ##### options:
       *
       * - __html__ - `false`. Set `true` to enable HTML tags in source. Be careful!
       *   That's not safe! You may need external sanitizer to protect output from XSS.
       *   It's better to extend features via plugins, instead of enabling HTML.
       * - __xhtmlOut__ - `false`. Set `true` to add '/' when closing single tags
       *   (`<br />`). This is needed only for full CommonMark compatibility. In real
       *   world you will need HTML output.
       * - __breaks__ - `false`. Set `true` to convert `\n` in paragraphs into `<br>`.
       * - __langPrefix__ - `language-`. CSS language class prefix for fenced blocks.
       *   Can be useful for external highlighters.
       * - __linkify__ - `false`. Set `true` to autoconvert URL-like text to links.
       * - __typographer__  - `false`. Set `true` to enable [some language-neutral
       *   replacement](https://github.com/markdown-it/markdown-it/blob/master/lib/rules_core/replacements.js) +
       *   quotes beautification (smartquotes).
       * - __quotes__ - `“”‘’`, String or Array. Double + single quotes replacement
       *   pairs, when typographer enabled and smartquotes on. For example, you can
       *   use `'«»„“'` for Russian, `'„“‚‘'` for German, and
       *   `['«\xA0', '\xA0»', '‹\xA0', '\xA0›']` for French (including nbsp).
       * - __highlight__ - `null`. Highlighter function for fenced code blocks.
       *   Highlighter `function (str, lang)` should return escaped HTML. It can also
       *   return empty string if the source was not changed and should be escaped
       *   externaly. If result starts with <pre... internal wrapper is skipped.
       *
       * ##### Example
       *
       * ```javascript
       * // commonmark mode
       * var md = require('markdown-it')('commonmark');
       *
       * // default mode
       * var md = require('markdown-it')();
       *
       * // enable everything
       * var md = require('markdown-it')({
       *   html: true,
       *   linkify: true,
       *   typographer: true
       * });
       * ```
       *
       * ##### Syntax highlighting
       *
       * ```js
       * var hljs = require('highlight.js') // https://highlightjs.org/
       *
       * var md = require('markdown-it')({
       *   highlight: function (str, lang) {
       *     if (lang && hljs.getLanguage(lang)) {
       *       try {
       *         return hljs.highlight(str, { language: lang, ignoreIllegals: true }).value;
       *       } catch (__) {}
       *     }
       *
       *     return ''; // use external default escaping
       *   }
       * });
       * ```
       *
       * Or with full wrapper override (if you need assign class to `<pre>`):
       *
       * ```javascript
       * var hljs = require('highlight.js') // https://highlightjs.org/
       *
       * // Actual default values
       * var md = require('markdown-it')({
       *   highlight: function (str, lang) {
       *     if (lang && hljs.getLanguage(lang)) {
       *       try {
       *         return '<pre class="hljs"><code>' +
       *                hljs.highlight(str, { language: lang, ignoreIllegals: true }).value +
       *                '</code></pre>';
       *       } catch (__) {}
       *     }
       *
       *     return '<pre class="hljs"><code>' + md.utils.escapeHtml(str) + '</code></pre>';
       *   }
       * });
       * ```
       *
       **/  function MarkdownIt(presetName, options) {
      if (!(this instanceof MarkdownIt)) {
        return new MarkdownIt(presetName, options);
      }
      if (!options) {
        if (!utils.isString(presetName)) {
          options = presetName || {};
          presetName = "default";
        }
      }
      /**
         * MarkdownIt#inline -> ParserInline
         *
         * Instance of [[ParserInline]]. You may need it to add new rules when
         * writing plugins. For simple rules control use [[MarkdownIt.disable]] and
         * [[MarkdownIt.enable]].
         **/    this.inline = new parser_inline;
      /**
         * MarkdownIt#block -> ParserBlock
         *
         * Instance of [[ParserBlock]]. You may need it to add new rules when
         * writing plugins. For simple rules control use [[MarkdownIt.disable]] and
         * [[MarkdownIt.enable]].
         **/    this.block = new parser_block;
      /**
         * MarkdownIt#core -> Core
         *
         * Instance of [[Core]] chain executor. You may need it to add new rules when
         * writing plugins. For simple rules control use [[MarkdownIt.disable]] and
         * [[MarkdownIt.enable]].
         **/    this.core = new parser_core;
      /**
         * MarkdownIt#renderer -> Renderer
         *
         * Instance of [[Renderer]]. Use it to modify output look. Or to add rendering
         * rules for new token types, generated by plugins.
         *
         * ##### Example
         *
         * ```javascript
         * var md = require('markdown-it')();
         *
         * function myToken(tokens, idx, options, env, self) {
         *   //...
         *   return result;
         * };
         *
         * md.renderer.rules['my_token'] = myToken
         * ```
         *
         * See [[Renderer]] docs and [source code](https://github.com/markdown-it/markdown-it/blob/master/lib/renderer.js).
         **/    this.renderer = new renderer;
      /**
         * MarkdownIt#linkify -> LinkifyIt
         *
         * [linkify-it](https://github.com/markdown-it/linkify-it) instance.
         * Used by [linkify](https://github.com/markdown-it/markdown-it/blob/master/lib/rules_core/linkify.js)
         * rule.
         **/    this.linkify = new linkifyIt;
      /**
         * MarkdownIt#validateLink(url) -> Boolean
         *
         * Link validation function. CommonMark allows too much in links. By default
         * we disable `javascript:`, `vbscript:`, `file:` schemas, and almost all `data:...` schemas
         * except some embedded image types.
         *
         * You can change this behaviour:
         *
         * ```javascript
         * var md = require('markdown-it')();
         * // enable everything
         * md.validateLink = function () { return true; }
         * ```
         **/    this.validateLink = validateLink;
      /**
         * MarkdownIt#normalizeLink(url) -> String
         *
         * Function used to encode link url to a machine-readable format,
         * which includes url-encoding, punycode, etc.
         **/    this.normalizeLink = normalizeLink;
      /**
         * MarkdownIt#normalizeLinkText(url) -> String
         *
         * Function used to decode link url to a human-readable format`
         **/    this.normalizeLinkText = normalizeLinkText;
      // Expose utils & helpers for easy acces from plugins
      /**
         * MarkdownIt#utils -> utils
         *
         * Assorted utility functions, useful to write plugins. See details
         * [here](https://github.com/markdown-it/markdown-it/blob/master/lib/common/utils.js).
         **/    this.utils = utils;
      /**
         * MarkdownIt#helpers -> helpers
         *
         * Link components parser functions, useful to write plugins. See details
         * [here](https://github.com/markdown-it/markdown-it/blob/master/lib/helpers).
         **/    this.helpers = utils.assign({}, helpers);
      this.options = {};
      this.configure(presetName);
      if (options) {
        this.set(options);
      }
    }
    /** chainable
       * MarkdownIt.set(options)
       *
       * Set parser options (in the same format as in constructor). Probably, you
       * will never need it, but you can change options after constructor call.
       *
       * ##### Example
       *
       * ```javascript
       * var md = require('markdown-it')()
       *             .set({ html: true, breaks: true })
       *             .set({ typographer, true });
       * ```
       *
       * __Note:__ To achieve the best possible performance, don't modify a
       * `markdown-it` instance options on the fly. If you need multiple configurations
       * it's best to create multiple instances and initialize each with separate
       * config.
       **/  MarkdownIt.prototype.set = function(options) {
      utils.assign(this.options, options);
      return this;
    };
    /** chainable, internal
       * MarkdownIt.configure(presets)
       *
       * Batch load of all options and compenent settings. This is internal method,
       * and you probably will not need it. But if you will - see available presets
       * and data structure [here](https://github.com/markdown-it/markdown-it/tree/master/lib/presets)
       *
       * We strongly recommend to use presets instead of direct config loads. That
       * will give better compatibility with next versions.
       **/  MarkdownIt.prototype.configure = function(presets) {
      var self = this, presetName;
      if (utils.isString(presets)) {
        presetName = presets;
        presets = config[presetName];
        if (!presets) {
          throw new Error('Wrong `markdown-it` preset "' + presetName + '", check name');
        }
      }
      if (!presets) {
        throw new Error("Wrong `markdown-it` preset, can't be empty");
      }
      if (presets.options) {
        self.set(presets.options);
      }
      if (presets.components) {
        Object.keys(presets.components).forEach((function(name) {
          if (presets.components[name].rules) {
            self[name].ruler.enableOnly(presets.components[name].rules);
          }
          if (presets.components[name].rules2) {
            self[name].ruler2.enableOnly(presets.components[name].rules2);
          }
        }));
      }
      return this;
    };
    /** chainable
       * MarkdownIt.enable(list, ignoreInvalid)
       * - list (String|Array): rule name or list of rule names to enable
       * - ignoreInvalid (Boolean): set `true` to ignore errors when rule not found.
       *
       * Enable list or rules. It will automatically find appropriate components,
       * containing rules with given names. If rule not found, and `ignoreInvalid`
       * not set - throws exception.
       *
       * ##### Example
       *
       * ```javascript
       * var md = require('markdown-it')()
       *             .enable(['sub', 'sup'])
       *             .disable('smartquotes');
       * ```
       **/  MarkdownIt.prototype.enable = function(list, ignoreInvalid) {
      var result = [];
      if (!Array.isArray(list)) {
        list = [ list ];
      }
      [ "core", "block", "inline" ].forEach((function(chain) {
        result = result.concat(this[chain].ruler.enable(list, true));
      }), this);
      result = result.concat(this.inline.ruler2.enable(list, true));
      var missed = list.filter((function(name) {
        return result.indexOf(name) < 0;
      }));
      if (missed.length && !ignoreInvalid) {
        throw new Error("MarkdownIt. Failed to enable unknown rule(s): " + missed);
      }
      return this;
    };
    /** chainable
       * MarkdownIt.disable(list, ignoreInvalid)
       * - list (String|Array): rule name or list of rule names to disable.
       * - ignoreInvalid (Boolean): set `true` to ignore errors when rule not found.
       *
       * The same as [[MarkdownIt.enable]], but turn specified rules off.
       **/  MarkdownIt.prototype.disable = function(list, ignoreInvalid) {
      var result = [];
      if (!Array.isArray(list)) {
        list = [ list ];
      }
      [ "core", "block", "inline" ].forEach((function(chain) {
        result = result.concat(this[chain].ruler.disable(list, true));
      }), this);
      result = result.concat(this.inline.ruler2.disable(list, true));
      var missed = list.filter((function(name) {
        return result.indexOf(name) < 0;
      }));
      if (missed.length && !ignoreInvalid) {
        throw new Error("MarkdownIt. Failed to disable unknown rule(s): " + missed);
      }
      return this;
    };
    /** chainable
       * MarkdownIt.use(plugin, params)
       *
       * Load specified plugin with given params into current parser instance.
       * It's just a sugar to call `plugin(md, params)` with curring.
       *
       * ##### Example
       *
       * ```javascript
       * var iterator = require('markdown-it-for-inline');
       * var md = require('markdown-it')()
       *             .use(iterator, 'foo_replace', 'text', function (tokens, idx) {
       *               tokens[idx].content = tokens[idx].content.replace(/foo/g, 'bar');
       *             });
       * ```
       **/  MarkdownIt.prototype.use = function(plugin /*, params, ... */) {
      var args = [ this ].concat(Array.prototype.slice.call(arguments, 1));
      plugin.apply(plugin, args);
      return this;
    };
    /** internal
       * MarkdownIt.parse(src, env) -> Array
       * - src (String): source string
       * - env (Object): environment sandbox
       *
       * Parse input string and return list of block tokens (special token type
       * "inline" will contain list of inline tokens). You should not call this
       * method directly, until you write custom renderer (for example, to produce
       * AST).
       *
       * `env` is used to pass data between "distributed" rules and return additional
       * metadata like reference info, needed for the renderer. It also can be used to
       * inject data in specific cases. Usually, you will be ok to pass `{}`,
       * and then pass updated object to renderer.
       **/  MarkdownIt.prototype.parse = function(src, env) {
      if (typeof src !== "string") {
        throw new Error("Input data should be a String");
      }
      var state = new this.core.State(src, this, env);
      this.core.process(state);
      return state.tokens;
    };
    /**
       * MarkdownIt.render(src [, env]) -> String
       * - src (String): source string
       * - env (Object): environment sandbox
       *
       * Render markdown string into html. It does all magic for you :).
       *
       * `env` can be used to inject additional metadata (`{}` by default).
       * But you will not need it with high probability. See also comment
       * in [[MarkdownIt.parse]].
       **/  MarkdownIt.prototype.render = function(src, env) {
      env = env || {};
      return this.renderer.render(this.parse(src, env), this.options, env);
    };
    /** internal
       * MarkdownIt.parseInline(src, env) -> Array
       * - src (String): source string
       * - env (Object): environment sandbox
       *
       * The same as [[MarkdownIt.parse]] but skip all block rules. It returns the
       * block tokens list with the single `inline` element, containing parsed inline
       * tokens in `children` property. Also updates `env` object.
       **/  MarkdownIt.prototype.parseInline = function(src, env) {
      var state = new this.core.State(src, this, env);
      state.inlineMode = true;
      this.core.process(state);
      return state.tokens;
    };
    /**
       * MarkdownIt.renderInline(src [, env]) -> String
       * - src (String): source string
       * - env (Object): environment sandbox
       *
       * Similar to [[MarkdownIt.render]] but for single paragraph content. Result
       * will NOT be wrapped into `<p>` tags.
       **/  MarkdownIt.prototype.renderInline = function(src, env) {
      env = env || {};
      return this.renderer.render(this.parseInline(src, env), this.options, env);
    };
    var lib = MarkdownIt;
    var markdownIt = lib;
    return markdownIt;
  }));